Journal articles: 'Florida. Division of Blind Services' – Grafiati (2024)

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The Division of Plant Industry of the Department of Agriculture and Consumer Services of Florida is empowered to protect the state's agriculture from both introduction and intrastate movement of pests. This responsibility is shared by similar regulatory agencies of the federal government and other states. The legal basis of such regulatory action, police power and eminent domain, is reviewed. The regulatory processes by the State of Florida of two important citrus pests, the burrowing nematode and Asiatic citrus canker, are presented. It was concluded that Florida's regulatory power to take property is of great importance to the agricultural industry and to Florida's economy. This power must be exercised within the constitutional limitation that “no person shall be deprived of life, liberty, or property without due processes of law.” However, the imminence of an emergency may justify state action without a prior hearing or just compensation of valueless items.

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The integrated services digital broadcasting-terrestrial (ISDB-T) system is designed in order to accommodate high-quality video/audio and multimedia services, using band segmented transmission orthogonal frequency division multiplexing (BST-OFDM) scheme. In the ISDB-T system, the pilot configuration varies depending on whether a segment uses a coherent or differential modulation. Therefore, it is necessary to perform a joint estimation of carrier frequency offset (CFO) and sampling frequency offset (SFO) independent of the segment format in the ISDB-T system. The goal is to complete those synchronization tasks while considering an information-carrying transmission and multiplexing configuration control (TMCC) signal as pilot symbols. It is demonstrated through numerical simulations that the differential BPSK-modulated TMCC information can be efficiently used for a least-squares estimation of CFO and SFO, offering an acceptable performance.

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Tulbaghia violacea Harv., also known as society garlic, belongs to the genus Tulbaghia (Amaryllidaceae). It is diversely used for medicinal, culinary, and ornamental purposes. In June 2018, T. violacea plants from Lake County, FL, with typical tospovirus-like symptoms of chlorotic ring patterns, were submitted to the Florida Department of Agriculture and Consumer Services, Division of Plant Industry (Gainesville, FL) for identification. Representative leaf tissue from four plants tested positive in a serological assay and reverse transcription-polymerase chain reaction. Amplicons of the expected size were produced using the tomato spotted wilt virus (TSWV) nucleocapsid (N) gene primers. They were directly sequenced and deposited in GenBank (MK567883). The 777-bp N gene sequence had 98 to 99% nucleotide identity with the corresponding region of previously described Florida TSWV isolates and 96 to 99% nucleotide identity with all TSWV isolates in GenBank. Epidemics of TSWV occur frequently in numerous crops in Florida, chiefly tomato, pepper, tobacco, and ornamentals. The western flower thrip, Frankliniella occidentalis (Pergande), is the most efficient vector of TSWV and has become established in Florida. This is the first report of TSWV infection in T. violacea.

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Siam tulip (Curcuma alismatifolia) has become an important crop for breeding new varieties owing to its high economic value as a tropical ornamental. In September 2017, C. alismatifolia potted plants, originally from Alachua, FL, were submitted to the Florida Department of Agriculture and Consumer Services, Division of Plant Industry, Gainesville, FL, for identification. The plants exhibited petal and bract necrosis. Initial serological testing for the presence of cucumber mosaic virus (CMV) using ELISA yielded positive results. To confirm pathogen identification, a two-step quantitative reverse transcription PCR, using primers targeting CMV-specific coat protein (amplicon of ∼450 bp), was performed. The PCR product, GenBank accession MG652768, had 99% nucleotide identity with CMV isolates in GenBank. Although all the tissues tested positive for CMV, it is unknown whether the necrotic symptoms were solely owing to CMV infection. CMV is known to infect a wide variety of plants in the ginger family, but to our knowledge, this is the first report of CMV in C. alismatifolia.

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The Community Partnership Program "Development of the Blind Massage Services in East Wara Subdistrict, Palopo City, South Sulawesi Province" is aimed at: (1) Developing and enhancing the participation of people with disabilities in the national and regional development, (2) Improving the standard of living of the Blind , as an effort aimed at absorbing workforce among disabiltas in Palopo City. Massage comes from the Arabic word "mash" which means "to press gently" or the Greek word "massien" which means "to massage or to scrub". Furthermore, massage is also referred to as the science of massage or lulut science. The focus of massage developed in the Community Blind Massage Program "Blind Massage Services in Palopo City, South Sulawesi Province, namely Massage Health, Therapy and Sports (recovery and sports injuries). Disabilities tendency of the Blind have disabilities and expertise to perform massage services because the Blind in the disabilities in every activity he does on a daily basis rely on the sense of "touch" especially the palm of the hand so that it has more sensitivity than humans in general. This is what makes the blind people with disabilities have talents and expertise in the field of massage or sciences. Partners in the Community Partnership Program are the Harapan Sehat Massage Clinic. Mitra has run a business and Massage Service with a turnover of Rp. 3,000,000 to Rp. 4,000,000 per month, while the number of workers joined in this business unit is five (4) people. Partner problems include service quality (production results), business management, marketing systems. Partner Issues Include: (1) The quality of services that are still traditional so that they lack attractiveness and trust in the wider community, so it is necessary to develop a massage / massage capability that leads to a standard and scientific health approach; (2) Participating in training or providing training for the Blind Massage Services; (3) Touch of massage technology; (4) Business management, there is no business management pattern that meets the standards and the division of work has not been directed and business motivation is lacking due to disability factors; (5) The marketing system, information patterns and publications are still very traditional, that is, from the mouth-mouth so that it becomes a separate obstacle in seizing potential markets; (6) Does not have a clear business plan; (7) Lack of capital to establish a Blind Massage Services clinic and attend massage training in order to have an increase in the ability of more scientific and scientific massage services. Based on the complexity of these problems, this dedication activity will focus on the development of Business Management and Development of massage (massage) service capabilities. The program is carried out in 3 (three) stages, namely: the flow of the PKM program starts from, 1) the preparation phase, 2) the implementation phase, and 3) the monitoring and evaluation phase. Key Word: Blind, Massage Services.

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The Visually Impaired Program, Division of Special Education of the Oakland County (Michigan) Intermediate School District, obtained Federal Act 94-142 funding in 1979. The purpose of this funding was to encourage establishment of programs that facilitated special education in the least restrictive educational environment. The Visually Impaired Program utilized these funds to establish the Educational Low Vision Aids Screening Clinic and to provide comprehensive low vision evaluations by certified low vision specialists. * This paper describes clinic rationales, procedural implementation of services from 1979 to 1982, and resultant findings. The study served as a model for the establishment of a statewide program funded in October, 1985, by the Michigan Legislature and administered by the Michigan Commission for the Blind in cooperation with the Michigan Department of Education. * A Demonstration Project funded through 94-142 federal funds, 1979-1982.

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Abstract The Florida Department of Elder Affairs (DOEA) provides programs and services for over 65,300 older people and adults with disabilities. These individuals are uniquely vulnerable and may be displaced, and/or disoriented during natural disasters. DOEA clients are dependent upon community-based services to provide supervision or assistance to perform basic self-care, which often makes sheltering in place alone a danger to their health and well-being. During Hurricane Michael (2018) many older adults who previously were independent sought help for many issues including property damage, utility interruption, food and medicine scarcity, and physical or mental health problems associated with the storm and its aftermath. In normal conditions, DOEA identifies older populations via Census tracts and then conducts outreach events to inform the public how to access social services. However, after the widespread displacement post-storm, traditional outreach approaches were insufficient. A method was needed to remove areas that were rendered uninhabitable and find who remained in place. DOEA identified viable neighborhoods by overlaying property damage locations on base layers of Census tracts with concentrations of older adults and polling places with high percentage of age 60+ voter participation in the subsequent November election. Then in partnership with Feeding Florida, we provided information and registration assistance via local food distribution sites in those areas. This methodology of overlaying Division of Emergency Management property damage records and voter participation records against publicly available Census tract files is a strategy that could be replicated by other disaster and flood-prone communities or organizations that have similar needs.

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In the integrated services digital broadcasting-terrestrial (ISDB-T) system, the combination of digital terrestrial transmission and MPEG-4 advanced video coding (MPEG-4 AVC) has offered ways to provide a variety of digital high-definition television (HDTV) programs. Using band segmented transmission orthogonal frequency division multiplexing (BST-OFDM), the delivery of innovative video-on-demand and HDTV services is supported. To take full advantage of the attractive benefits of BST-OFDM, it is important to estimate integer frequency offset (IFO) without a priori knowledge on the segment type that is transmitted over transmission and the multiplexing configuration control (TMCC) signal. To address this issue, an efficient IFO detection method is proposed for the ISDB-T system employing BST-OFDM. To enable IFO detection independent of the segment type, information-bearing TMCC signals that are asymmetrically distributed in the frequency domain are used as pilot symbols. Numerical analysis is performed to present the relationship between error probability and design parameter. We show via the numerical results that the multiple transmitted TMCC information is efficiently used for blind estimation of the IFO, achieving robust estimation in the presence of the fractional frequency offset.

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17070 Background: In 2004, the Moffitt Cancer Center implemented a Division of Internal and Hospital Medicine. As a free-standing Comprehensive Cancer Center, Moffitt serves complex cancer patients with a wide range of nononcologic medical needs. These co-morbidities had previously been managed through a combination of subspecialty consultations and ‘out-of-specialty‘ care by the attending oncologist or hematologist. With the rapid growth of hospital medicine as an established specialty, Moffitt recognized an opportunity to reduce fragmentation and variation in noncancer care, minimize disruptions to the focused practices of the cancer specialists, cope with resident workload constraints, and enhance efficiency of inpatient care. The institution commited to the establishment of a dedicated internal and hospital medicine program. Methods: The presentation includes a descriptive accounting of this comprehensive project, from initial planning to implementation and consolidation. Scope of services provided, staffing ratios, and unanticipated challenges and opportunities are described. A survey of stakeholder physicians was undertaken to assess perceived value for various aspects of the program. Opportunity for discussion will be provided for those considering implementation of similar services in their host institution. Results: The new program was successfully implemented and is comprised of an active inpatient service, an inpatient consultation service, a high-risk preoperative evaluation and co-management service, a 24-hour urgent care service, and a limited outpatient clinic. There are 5 physicians and 4 midlevel practitioners in the program, which is closely integrated with the internal medicine residency program of the University of South Florida. Conclusions: An Internal and Hospital Medicine program in a free-standing cancer center appears to provide perceived patient care benefits, peer satisfaction, and utilization efficiencies based on initial survey data. No significant financial relationships to disclose.

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Mature akee trees, Blighia sapida K. Koenig, in a local south Florida commercial orchard had wilt and dieback symptoms during spring 1999. A fungus isolated from the gray xylem root tissue on V8 agar was identified as Verticillium dahliae Klebahn at the Division of Plant Industry of the Florida Department of Agriculture and Consumer Services. Twenty akee seedlings were transplanted into 3.85-liter plastic pots and grown in a greenhouse at a daytime temperature of 28°C and nighttime temperature of 23°C. When plants were approximately 25 cm high, a 15-cm knife was used to sever roots in the four quadrants of each pot. Inoculum was made from a 2-week-old culture of V. dahliae on V8 agar and blended with 160 ml of sterile water, and 15 ml of this slurry was poured into the disturbed soil of each of 10 treated plants. A plate of uninoculated V8 agar was applied, as above, to 10 control plants. Plants were kept in the greenhouse. After 6 weeks, inoculated plants showed symptoms of leaf wilt, dieback and plant death. No symptoms were seen on control plants. V. dahliae was isolated directly from the gray vascular tissue of inoculated plants. The inoculation experiment was repeated three times, fulfilling Koch's postulates. To our knowledge, this is the first report of Verticillium dieback on B. sapida in the United States.

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General knowledge of eye health and low-vision services is poorly understood by the public, particularly those in underserved and minority communities. A program, funded by the Florida Blue Foundation with leveraged funding from the Peaco*ck Foundation, Inc. and the James Deering Charitable Trust primarily for functional assessment and intervention services, was implemented by the Miami Lighthouse for the Blind and Visually Impaired (MLB) over a 3-year period (2016, 2017, and 2018) with three goals: (1) educate community-dwelling seniors about low vision; (2) provide assessment and intervention services to identified seniors living with low vision; and (3) educate healthcare professionals about best practices in serving this population. In this program, community sites serving seniors were identified and educational and screening programs implemented by a low-vision-certified occupational therapist. Seniors with an identified need received low-vision intervention. Pre- and post-program evaluation determined outcomes of educational and interventional services with the seniors. Professional education workshops were implemented annually and evaluated professional learning from low-vision services. This program served 1552 community-dwelling seniors who attended educational sessions on vision health. Participants averaged 76 years and were primarily identified as Hispanic (64%). The Low Vision Independence Measure and the Visual Function Index were used to measure functional performance outcomes. All scores indicated improved performance of functional tasks following the interventions. Three years of annual “Engaging the Low Vision Community Through Education, Research, and Service” workshops (attended by 108 healthcare professionals and students) demonstrated an interest in and improved knowledge of low vision among healthcare professionals and students. The MLB community-based program demonstrated success in increasing knowledge among community-dwelling seniors and healthcare professionals about low vision and the provision of effective low-vision services.

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OBJECTIVEThe objective of this study was to examine the socioeconomic benefits to the patients and families attending a regional pediatric neurosurgery telemedicine clinic (PNTMC).METHODSA PNTMC was organized by the Division of Pediatric Neurosurgery of the University of Florida College of Medicine–Jacksonville based at Wolfson Children’s Hospital and by the Children’s Medical Services (CMS) to service the Southeast Georgia Health District. Monthly clinics are held with the CMS nursing personnel at the remote location. A retrospective review of the clinic population was performed, socioeconomic data were extracted, and cost savings were calculated.RESULTSClinic visits from August 2011 through January 2017 were reviewed. Fifty-five patients were seen in a total of 268 initial and follow-up PNTMC appointments. The average round-trip distance for a family from home to the University of Florida Pediatric Neurosurgery (Jacksonville) clinic location versus the PNTMC remote location was 190 versus 56 miles, respectively. The families saved an average of 2.5 hours of travel time and 134 miles of travel distance per visit. The average transportation cost savings for all visits per family and for all families was $180 and $9711, respectively. The average lost work cost savings for all visits per family and for all families was $43 and $2337, respectively. The combined transportation and work cost savings for all visits totaled $223 per family and $12,048 for all families. Average savings of $0.68/mile and $48.50/visit in utilizing the PNTMC were calculated.CONCLUSIONSManaging pediatric neurosurgery patients and their families via telemedicine is feasible and saves families substantial travel time, travel cost, and time away from work.

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OBJECTIVE The author describes the creation, structuring, and development of a pediatric neurosurgery telemedicine clinic (TMC) to provide telehealth across geographical, time, social, and cultural barriers. METHODS In July 2009 the University of Florida (UF) Division of Pediatric Neurosurgery received a request from the Southeast Georgia Health District (Area 9–2) to provide a TMC to meet regional needs. The Children's Medical Services (CMS) of the State of Georgia installed telemedicine equipment and site-to-site connectivity. Audiovisual connectivity was performed in the UF Pediatric Neurosurgery office, maintaining privacy and HIPAA (Health Insurance Portability and Accountability Act) requirements. Administrative steps were taken with documentation of onsite training of the secretarial and nursing personnel of the CMS clinic. Patient preregistration and documentation were performed as required by the UF College of Medicine–Jacksonville. Monthly clinics are held with the CMS nursing personnel presenting the pertinent clinical history and findings to the pediatric neurosurgeon in the presence of the patient/parents. Physical findings and diagnostic studies are discussed, and management decisions are made. RESULTS The first TMC was held in August 2011. A total of 40 TMC sessions have been held through January 2016, with a total of 43 patients seen: 13 patients once; 13 patients twice; 8 patients for 3 visits; 2 for 4 visits; 2 for 6 visits; 2 for 5 visits; 2 for 7 visits; and 1 patient has been seen 8 times. CONCLUSIONS Pediatric patients in areas of the continental US and its territories with limited access to pediatric neurosurgery services could benefit from this model, if other pediatric neurosurgery centers provide telehealth services.

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Purpose A seemingly obvious solution to improve resilience of built structures facing natural hazards is enhanced structural integrity. One program designed to achieve this is the building code effectiveness grading schedule (BCEGS) which rates communities on the strength and enforcement of local building codes. However, little is known on how well this program has fared in terms of community participation. The purpose of this study is to use the BCEGS program in Florida (a hurricane at-risk state) to provide tangible evidence of whether participatory achievement occurred and identify characteristics that predict high performance in the program. Design/methodology/approach Data is used from the Insurance Services Office, a division of Verisk Analytics to compare characteristics of communities with high levels of participation to communities with lower levels of participation. This is done using descriptive statistics and regression models. Findings Communities more likely to have high BCEGS ratings are more urban, have higher wealth and a younger, more educated population. Discussed also is the role risk exposure and public policy play in both maintaining higher ratings and overall improvement in BCEGS ratings across time. Practical implications Identifying what motivates communities to enhance their construction standards is a useful tool in attracting interest to enhance resilience. The results show that resilience can be improved by public policy initiatives and knowledge by communities of their risk profile. Originality/value BCEGS data is proprietary, so no study of this type has been conducted on what motivates communities to adopt higher standards in the strength and enforcement of local building codes.

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Abstract The theme of the paper is very topical in global and European context. It brings theoretical information on the concept of asocial model of early care in the Czech Republic and practical case studies and final reports related to the early care provision which demonstrate tangible activities within the system of the complex support and assistance to children with disability and their families. The author applies the theoretical-practical approach as she is of the opinion that „the practice without theory is as a blind person on the road and the theory without practice is as a cart without an axle”. The aim of the paper is to extend theoretical information on the topic in the Czech Republic by individual examples of final reports related to the provision of social prevention of the early care in the Czech Republic. The overall aim of the paper is to justify topicality and eligibility of early care in its broad reference framework, including its practical impact. The theoretical basis of the paper is elaborated with respect to the analysis and comparison of Czech and foreign literature, legislation, methodology document and other relevant written resources. The practical level is elaborated with respect to 3 cases and final reports of the provider of an early care of the social prevention. The early care in the Czech Republic represents a professional, modern and recognized system in European and global comparison and is legally anchored in the Act 108/2006 Coll. on social services. It aims on the minimization of child´s disability impact upon child´s development, especially the social inclusion of a child and a family and their capability to cope with limitating disability in natural environ, i.e. by the preservation of standard way of life. It represents a multi-dimensional model, overcoming limitation of sectoral division of the early care and facilitating complex assistance from a series of subject fields at the same time. Services for families with an endangered child in early age are the background for social, educational and pedagogical inclusion of a child and the re-socialisation and re-inclusion of a family. Early care is considered preventive, from the point of the prevention of the second disability (i.e. is effective), in the prevention of institutionalized and asylum care (i.e. is economical), in the prevention of segregation (i.e. is ethical).

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Pineapple (Ananas comosus (L.) Merr.) is an important perennial monocotyledonous plant that serves as an important fruit crop globally and is also produced in the Hainan Province of China where production in 2009 was 296,600 t. In July 2009, atypical symptoms of a leaf spot disease were observed on mature pineapple leaves in Chengmai County; approximately 15% of plants propagated from suckers became symptomatic after 150 to 300 days, eventually causing a 3 to 10% yield loss. In the initial infection stage, grayish white-to-yellowish white spots emerged on the leaf surfaces that ranged from 1.0 to 2.4 × 0.3 to 0.7 cm; black specks were not always present in the spots. Leaf spots also had distinctive light brown-to-reddish brown banding pattern on the edges. Several spots would often merge to form large lesions, 6.5 to 15.4 × 2.5 to 5.6 cm, covering more than 67% of the leaf surface, which can lead to death of the plant. Infected pineapple leaves collected from an orchard of Chengmai County were surface sterilized (75% ethanol for 30 s, 0.1% HgCl2 for 2 min, and rinsed three times in sterile distilled water). Leaf pieces were placed on potato dextrose agar medium and then incubated at 25°C. The emerging fungal colonies were grayish white to brown. Similar strains were obtained from Qionghai City and Wanning City subsequently. Two isolates, ITF0706-1 and ITF0706-2, were used in confirmation of the identity of the pathogen and in pathogenicity tests. Colonies were fast growing (more than 15 mm per day at 25 to 30°C) with dense aerial mycelia. Conidia were fusiform, pyriform to oval or cylindrical, olive brown to dark brown, 3 to 10 septate (typically 5 to 8), 33.2 to 102.5 × 9.0 to 21.3 μm, with a strongly protruding hilum bulged from the basal cell, which were similar to the Type A conidia described by Lin et al. (3). The strains were subjected to PCR amplification of the internal transcribed spacer (ITS)1-5.8S-ITS2 regions with universal primer pair ITS1/ITS4. The ITS sequence comparisons (GenBank Accession Nos. JN711431 and JN711432) shared between 99.60 and 99.83% identity with the isolate CATAS-ER01 (GenBank Accession No. GQ169762). According to morphological and molecular analysis, the two strains were identified as Exserohilum rostratum (Drechs.) Leonard & Suggs. Pathogenicity experiments were conducted five times and carried out by spraying a conidial suspension (105 CFU/ml) on newly matured leaves of healthy pineapple plants; plants sprayed with sterile water served as the negative control. Plants were incubated in the growth chamber at 20 to 25°C. Symptoms of leaf spot developed on test plants 7 days after inoculation while the control plants remained asymptomatic. Koch's postulates were fulfilled with the reisolation of the two fungal strains. Currently, E. rostratum is one of the most common pathogens on Bromeliads in Florida (2) and has been reported on Zea mays (4), Musa paradisiacal (3), and Calathea picturata (1) in China, but to our knowledge, this is the first report of leaf spot disease caused by E. rostratum on pineapple in Hainan Province of P.R. China. References: (1) L. L. Chern et al. Plant Dis. 95:1033, 2011. (2) R. M. Leahy. Plant Pathol. Circ. No. 393. Florida Department of Agriculture and Consumer Services Division of Plant Industry, 1999. (3) S. H. Lin et al. Australas. Plant Pathol. 40:246, 2011. (4) J. N. Tsai et al. Plant Pathol. Bull. 10:181, 2001.

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Let us first express our respectful thanks to the founder of Journal Dr. R. C. Dalela, who has entrusted us the responsibility to look after the Processing and Editing of research papers submitted to the Journal of Environmental Biology. We have humbly accepted the responsibility and are committed to follow his footsteps to further enhance the scientific quality and popularity of the Journal of Environmental Biology. Journal's launching: In 1975, there were only a few research Journals available in India to the researchers of Biological Sciences. To cater to the needs of Environmental Biologists, Dr. Dalela mooted the idea of introducing research Journal in 1975 & after a pan India consultation launched the title “Journal of Environmental Biology ” after due registration with the Government of India. The International Editorial Board of Journal was constituted, the Editorial Policy and Guidelines for authors were prepared and the first issue was released on 7th October 1978 in Muzaffarnagar, Uttar Pradesh, India. Since then, the Journal is being published uninterruptedly in-spite of varied problems and difficulties faced time to time. In the beginning most of the research papers received were from Indian researchers but with passage of time overseas research papers started pouring. Gradually, Journal became a favored choice of the International Scientific Community. From 1978 to 1997, the periodicity of Journal was quarterly and currently, it is bimonthly i.e. six issues in a year. The Journal is sponsored by Dalela Educational Foundation (DEF) - a charitable educational trust. The Journal neither receives any financial grant from Government nor from Non-government organizations. The Journal is independent and financially depends largely upon subscriptions and the publication fees. . Growth and Progress: In 1997, the Registered Office and the secretariat of the Journal was shifted from Muzaffarnagar to Lucknow, the capital city of Uttar Pradesh. The worldwide acceptance of our Journal grew exponentially because of its scientific merit, print quality and its double-blind peer review system. Peer-review system and editing of research papers became more intense and recommendations of reviewers became the sole criterion for publication of research papers. The Marketing & Distribution of the Journal was given to Triveni Enterprises - an educational setup, to make this important task efficient. As the Journal's credibility grew over a period of time, new policies were promulgated to meet the increasing needs of International Scientific community. These are as follows: 1) Website: In 2001, Journal developed its website (www.jeb.co.in), where in all relevant information of the Journal and the published papers were uploaded. Open Access of research papers was made available. 2) R & D Division: In 2008, Journal established its own Research & Development (R & D) division under the guidance of a consultant and scientists to scrutinize all submitted manuscripts for unethical practices and recommend ways to improve quality and scientific merit. Looking to its relevance, the reviewer selection and monitoring of the review process were also handed over to this division. Our reviewers, Editorial Board members and R & D experts voluntarily and generously contribute their expertise to upscale the Journal. We highly value their role. The contributions of the reviewers are appropriately acknowledged by publishing their names in the Reviewer's Panel of the Journal. 3) Digital Object Identifier: Journal took the membership of Crossref in 2016, so as to allot the DOI number to each paper published in the Journal of Environmental Biology. 4) JEB International Awards: In 2018, the Journal introduced “JEB - International Award (IA)” for the best paper published in a calendar year to recognize and appreciate the outstanding research paper published in the Journal. In 2019, the Journal introduced, “Young Researcher Award (YRA)” – another International Award for innovative research paper published by a young research scholar. The papers are evaluated by an International Scientific Committee and the awardees are given “Certificate of Excellence” and cash prizes of USD 500 to IA and USD 200 to YRA, respectively. Scientific Leadership: In September 2020, the National Academy of Agricultural Research Management (NAARM), Hyderabad organized an online training program and the JEB editor was invited as an expert in a panel discussion on "Science of Writing Good Research Papers". Dr. Sumati Gaumat, Editor-JEB based on her vast experience highlighted many short comings normally committed by the young research scholars while writing research papers and what should they do to avoid rejection. COPE Membership: In December - 2020, we have applied for the registration of Journal for the membership of “Committee on Publication Ethics (COPE)” to follow the highest standards of ethics for scholarly publication. Year 2020, has been the most challenging and disruptive year for the entire world due to Covid-19 global pandemic. The pandemic and various regulations of the Government to curtail the pandemic have affected the normal working of secretariat. The secretariat is slowly resuming the regular functioning. Our priority now is to enhance efficiency of Editorial office and to clear the backlog of accumulated research papers. Further, we are keen to work with more enthusiasm to attract high level, innovative and impactful researches for publication in the Journal. Future Strategies: We are pleased to share that our current research credibility & acceptance has made the Journal one of the most acceptable International Research Journal for publication of scientific research related to Environmental Sciences and Toxicology. We wish to concentrate on the following in 2021: 1. To seek more active participation of Editors of JEB. 2. To attract more authentic and transparent research for publication. 3. To follow the best publication practices and ethics laid down by COPE for scholarly publication. 4. To accord priority to innovative research. 5. To adopt stricter review and editing systems of papers. We acknowledge the efforts of all the contributors, readers, researchers, scientists and subscribers of the Journal - Libraries, organizations and laboratories for their continued cooperation and support. We also thank the members of the Editorial Board, for rendering their expertise voluntarily to the Journal and also the reviewers for their robust and critical review of papers. The services of Information System Consultant are sincerely acknowledged for supervising the designing and for managing Journal's website. The reputation and popularity of Journal is due to hard and sincere working of the secretariat staff. At last but not the least, we express our highest gratitude to the Managing Editor of the Journal for her constant support and encouragement.

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Perfect vision for the path ahead? As I write this editorial it seems that once again, we stand on the threshold of yet another significant date. The fortieth anniversary of ISCPES and also that of this journal, that has been the voice of the society’s contribution over that period, has been and gone. This time it is 2020 that looms on the near horizon. It is a date that has long been synonymous with perfect vision. Many may perhaps see this as somewhat ironic, given the themes surrounding change and the directions it has taken, that have been addressed previously in these pages. Perfect vision and the clarity it can bring seem a far cry away from the turbulent world to which we seem to be becoming accustomed. So many of the divisions that we are facing today seem to be internal in nature and far different from the largely: nation against nation; system against system strife, we can remember from the cold war era. The US, for example, seems to be a nation perpetually at war with itself. Democrats v Republicans, deplorables v elites - however you want to label the warring sides - we can construct a number of divisions which seem to put 50% of Americans implacably opposed to the other 50%. In the UK, it has been the divide around the referendum to leave the European Union – the so-called Brexit debate. Nationally the division was 52% to 48% in favour of leaving. Yet the data can be reanalysed in, it seems, countless ways to show the splits within a supposedly ‘United’ Kingdom. Scotland v England, London and the South East v the English regions, young v old are just some of the examples. Similar splits seem to be increasing within many societies. Hong Kong has recently been the focus of world interest We have watched this erstwhile model of an apparently successful and dynamic compromise between two ‘diverse’ systems, appear to tear itself apart on our television screens. Iran, Brazil, Venezuela are just three further examples of longstanding national communities where internal divisions have bubbled to the surface in recent times. These internal divisions frequently have no simple and single fault line. In bygone times, social class, poverty, religion and ethnicity were simple universal indicators of division. Today ways of dividing people have become far more complex and often multi-dimensional. Social media has become a means to amplify and repeat messages that have originated from those who have a ‘gripe’ based in identity politics or who wish to signal to all and sundry how extremely ‘virtuous’ and progressive they are. The new technologies have proved effective for the distribution of information but remarkably unsuccessful in the promotion of communication. This has been exemplified by the emergence and exploitation of Greta Thunberg a sixteen-year-old from Sweden as a spokesperson for the ‘Extinction Rebellion’ climate change lobby. It is a movement that has consciously eschewed debate and discussion in favour of action. Consequently, by excluding learning from its operation, it is cutting itself off from the possibility of finding out what beneficial change will look like and therefore finding a way by which to achieve it. Put simply, it has predetermined its desired goal and defined the problem in inflexible terms. It has ignored a basic tenet of effective problem solving, namely that the key lies in the way you actually frame the problem. Unfortunately, the movement has adopted the polarised labelling strategies that place all humans into the category of either ‘believers’ or ‘deniers’. This fails to acknowledge and deal with the depth and complexity of the problem and the range of our possible responses to it. We are all the losers when problems, particularly given their potential significance, become addressed in such a way. How and where can human behaviour learn to rise above the limits of the processes we see being followed all around us? If leadership is to come, it must surely come from and through a process of education. All of us must assume some responsibility here – and certainly not abdicate it to elite and powerful groups. In other words, we all have a moral duty to educate ourselves to the best of our ability. An important part of the process we follow should be to remain sceptical of the limits of human knowledge. In addition, we need to be committed to applying tests of truth and integrity to the information we access and manage. This is why we form and support learned societies such as ISCPES. Their duty is to test, debate and promote ideas and concepts so that truth and understanding might emerge from sharing and exploring information, while at the same time applying the criteria developed by the wisdom and experience of those who have gone before. And so, we come to the processes of change and disruption as we are currently experiencing them at International Sports Studies. Throughout our history we have followed the traditional model of a scholarly journal. That is, our reason for existence is to provide a scholarly forum for colleagues who wish to contribute to and develop understanding within the professional and academic field of Comparative Physical Education and Sport. As the means of doing this, we encourage academics and professionals in our field to submit articles which are blind reviewed by experts. They then advise the editor on their quality and suitability for publication. As part of our responsibility we particularly encourage qualified authors from non-English speaking backgrounds to publish with us, as a means of providing a truly international forum for ideas and development. Where possible the editorial team works with contributors to assist them with this process. We have now taken a step further by publishing the abstracts in Portuguese, Spanish and Chinese on the website, in order to spread the work of our contributors more widely. Consistent with international changes in labelling and focus over the years, the title of the society’s journal was changed from the Journal of Comparative Physical Education and Sport to International Sports Studies in 1989. However, our aim has remained to advance understanding and communication between members of the global community who share a professional, personal or scholarly interest in the state and development of physical education and sport around the world. In line with the traditional model, the services of our editorial and reviewing teams are provided ex gratia and the costs of publication are met by reader and library subscriptions. We have always offered a traditional printed version but have, in recent years, developed an online version - also as a subscription. Over the last few years we have moved to online editorial support. From 2020 will be adopting the practice of making articles available online immediately following their acceptance. This will reduce the wait time experienced by authors in their work becoming generally available to the academic community. Readers will no doubt be aware of the current and recent turbulence within academic publishing generally. There has been a massive increase in the university sector globally. As a result, there has been an increasing number of academics who both want to and need to publish, for the sake of advancement in their careers. A number of organisations have seen this as providing a business opportunity. Consequently, many academics now receive daily emails soliciting their contributions to various journals and books. University libraries are finding their budgets stretched and while they have been, up until now, the major funders of scholarly journals through their subscriptions, they have been forced to limit their lists and become much more selective in their choices. For these reasons, open access has provided a different and attractive funding model. In this model, the costs of publication are effectively transferred to the authors rather than the readers. This works well for those authors who may have the financial support to pursue this option, as well as for readers. However, it does raise a question as to the processes of quality control. The question arises because when the writer becomes the paying customer in the transaction, then the interests of the merchant (the publisher) can become more aligned to ensuring the author gets published rather than guaranteeing the reader some degree of quality control over the product they are receiving. A further confounding factor in the scenario we face, is the issue of how quality is judged. Universities have today become businesses and are being run with philosophies similar to those of any business in the commercial world. Thus, they have ‘bought into’ a series of key performance indicators which are used to compare institutions one with another. These are then added up together to produce summative scores by which universities can be compared and ranked. There are those of us that believe that such a process belittles and diminishes the institutions and the role they play in our societies. Nonetheless it has become a game with which the majority appear to have fallen in line, seeing it as a necessary part of the need to market themselves. As a result, very many institutions now pay their chief executives (formerly Vice-Chancellors) very highly, in order to for them to optimise the chosen metrics. It is a similar process of course with academic journals. So it is, that various measures are used to categorise and rank journals and provide some simplistic measure of ‘quality’. Certain fields and methodologies are inherently privileged in these processes, for example the medical and natural sciences. As far as we are concerned, we address a very significant element in our society – physical education and sport - and we address it from a critical but eclectic perspective. We believe that this provides a significant service to our global community. However, we need to be realistic in acknowledging the limited and restricted nature of that community. Sport Science has become dominated by physiology, data analytics, injury and rehabilitation. Courses and staff studying the phenomenon of sport and physical education through the humanities and social sciences, seem to be rarer and rarer. This is to the great detriment of the wellbeing and development of the phenomenon itself. We would like to believe that we can make an important difference in this space. So how do we address the question of quality? Primarily through following our advertised processes and the integrity and competence of those involved. We believe in these and will stick with them. However, we appreciate that burying our heads in the sand and remaining ‘king of the dinosaurs’ does not provide a viable way forward. Therefore, in our search for continuing strategy and clear vision in 2020, we will be exploring ways of signalling our quality better, while at the same time remaining true to our principles and beliefs. In conclusion we are advising you, as our readers, that changes may be expected as we, of necessity, adapt to our changing environment while seeking sustainability. Exactly what they will be, we are not certain at the time of going to press. We believe that there is a place, even a demand for our contribution and we are committed to both maintaining its standard and improving its accessibility. Comments and advice from within and outside of our community are welcome and we remain appreciative, as always, of the immense contribution of our international review board members and our supportive and innovative publisher. So, to the contributors to our current volume. Once again, we would point with some pride to the range of articles and topics provided. Together, they provide an interesting and relevant overview of some pertinent current issues in sport and physical education, addressed from the perspectives of different areas across the globe. Firstly, Pill and Agnew provide an update to current pedagogical practices in physical education and sport, through their scoping review of findings related to the use of small-sided games in teaching and coaching. They provide an overview of the empirical research, available between 2006 and 2016, and conclude that the strategy provides a useful means of achieving a number of specific objectives. From Belgium, Van Gestel explores the recent development of elite Thai boxing in that country. He draws on Elias’ (1986) notion of ‘sportization’ which describes the processes by which various play like activities have become transformed into modern sport. Thai boxing provides an interesting example as one of a number of high-risk combat sports, which inhabit an ambiguous area between the international sports community and more marginalised combat activities which can be brutal in nature. Van Gestel expertly draws out some of the complexities involved in concluding that the sport has experienced some of the processes of sportization, but in this particular case they have been ‘slight’ in impact rather than full-blown. Abdolmaleki, Heidari, Zakizadeh XXABSTRACT De Bosscher look at a topic of considerable contemporary interest – the management of a high-performance sport system. In this case their example is the Iranian national system and their focus is on the management of some of the resources involved. Given that the key to success in high performance sport systems would appear to lie in the ability to access and implement some of the latest and most effective technological information intellectual capital would seem to be a critical component of the total value of a competitive high performance sport system Using a model developed by a Swedish capital services company Skandia to model intangible assets in a service based organisation, Abdolmaleki and his associates have argued for the contribution of human, relational and structural capital to provide an understanding of the current place of intellectual capital in the operations of the Iranian Ministry of Sport and Youth. An understanding of the factors contributing to the development of these assets, contributes to the successful operation of any organisation in such a highly competitive and fast changing environment. Finally, from Singapore, Chung, Sufri and Wang report on some of the exciting developments in school based physical education that have occurred over the last decade. In particular they identify the increase in the placement of qualified physical education teachers as indicative of the progress that has been made. They draw on Foucault’s strategy of ‘archaeological analysis’ for an explanation of how these developments came to be successfully put in place. Their arguments strongly reinforce the importance of understanding the social and political context in order to achieve successful innovation and development. May I commend the work of our colleagues to you and wish you all the best in the attempt to achieve greater clarity of vision for 2020!

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A species of scale insect new to Florida is potentially one of the most devastating pests of trees and shrubs in the state's history. The lobate lac scale, Paratachardina lobata lobata (Chamberlin) (Hemiptera: Sternorrhyncha: Coccoidea: Kerriidae), a scale insect native to India and Sri Lanka, was found for the first time in Florida in August 1999 by personnel of the Florida Department of Agriculture and Consumer Services, Division of Plant Industry (DPI) (Hamon 2001). This document is EENY-276, one of a series of the Department of Entomology, Florida Cooperative Extension Service, Institute of Food and Agricultural Sciences, University of Florida. Date printed: November 2002. Revised: May 2004. EENY-276/IN471: Lobate Lac Scale, Paratachardina lobata lobata (Chamberlin) (Hemiptera: Sternorrhyncha: Coccoidea: Kerriidae) (ufl.edu)

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A seed-attacking weevil was recently found attacking Chinese privet in Tallahassee, Leon County, Florida (Cuda and Zeller 1998). The insect was discovered in a sample of several hundred seeds collected for germination studies. Six weevil adults that emerged from the infested seed sample were later identified (by M.C. Thomas) as the ligustrum weevil, Ochyromera ligustri Warner. The remaining seed stock from Tallahassee was dissected and inspected for the presence of the insect. Weevil larvae were recovered from 89 of the 358 seeds examined. Overall, 24.9% of the Chinese privet seeds collected were infested with weevil larvae. Voucher specimens of the larval and adult stages of the ligustrum weevil were deposited in the Florida State Collection of Arthropods, Division of Plant Industry, Florida Department of Agriculture and Consumer Services, Gainesville. This document is EENY-343, one of a series of Featured Creatures from the Entomology and Nematology Department, Florida Cooperative Extension Service, Institute of Food and Agricultural Sciences, University of Florida. Published: May 2005. EENY343/IN620: Ligustrum Weevil (suggested common name), Ochyromera ligustri Warner (Insecta: Coleoptera: Curculionidae: Tychiinae: Tychiini: Endaeina) (ufl.edu)

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Trachoma is responsible for the visual impairment of about two million people worldwide, out of which a majority are irreversibly blind. The study aimed to assess the level of knowledge, attitudes and eye care seeking practices of the community regarding the available trachoma eye care services. Community members aged eighteen and over participated. Descriptive cross-sectional study design was adapted. Data analysis was performed using Stata. The level of awareness of trachoma disease in the study area was high (95%). About three quarters (71%) of the respondents were knowledgeable of the available trachoma eye care services. A majority had a positive attitude towards the available services and expressed need for the services. Public health facilities were mostly preferred. The study concluded that the community was knowledgeable of the available trachoma eye care services and had a positive attitude towards the services. Concerned stakeholders should reinforce the positive attitudes through community based educational programs and improve eye care seeking practices through community participation in education and outreach services.

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Florida Department of Agriculture and Consumer Services, Division of Plant Industry inspector Lisa Hassell collected the mealybug Phenacoccus multicerarii, a new continental record, from a retail nursery in Fernandina Beach (Nassau County, on 15 June 2011). On a return visit to the store, the mealybug was observed in high numbers on numerous host plants. Three days later, an additional find was made at a nursery in Apopka that had exchanged plant material with the nursery in Jacksonville. No further infestations were reported until October 2012, when a heavy infestation was discovered on a residential planting of coleus in Cooper City (Broward County). This mealybug was described in 2007 from a sample collected in Caracas, Venezuela, in 1949 from an unknown host (Granara de Willink and Szumik 2007). This 2-page fact sheet was written by Ian Stocks, and published by the UF Department of Entomology and Nematology, April 2013. http://edis.ifas.ufl.edu/in993

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ObjectiveAssess the validity of Florida (FL) Enhanced State Opioid Overdose Surveillance (ESOOS) non-fatal syndromic case definitions.IntroductionIn 2017, FL Department of Health (DOH) became one of thirty-two states plus Washington, D.C funded by the Center for Disease Control and Prevention (CDC) under the ESOOS program. One of the objectives of this funding was to increase the timeliness of reporting on non-fatal opioid overdoses through syndromic surveillance utilizing either the emergency department (ED) or Emergency Medical Services (EMS) data systems. Syndromic case validation is an essential requirement under ESOOS for non-fatal opioid-involved overdose (OIOD). FL’s ESOOS program conducted OIOD validation and quality monitoring of EMS case definitions, using data from FL’s Emergency Medical Services Tracking and Reporting System (EMSTARS). We examined measurement validity with OIOD cases identified from FL’s statewide hospital billing database, FL Agency for Health Care Administration (AHCA).MethodsFrom FL-EMSTARS, we extracted EMS data where the type of service requested was a 911 response, the patient was treated then transported by EMS to a hospital facility in Florida and was 11 years of age or older. Additionally, all incident-patient encounters excluded those who were dead at the scene. We included all responses with dispatch dates between January 1, 2016, and December 31, 2016. From FL-AHCA, we extracted ED and inpatient discharge information with admission dates and patient age covering the same ranges as our EMS encounters. We classified FL-EMSTARS cases based on combinations, like that of Rhode Island,1 using providers primary impression (PPI), providers secondary impression (PSI) and response to the administration of naloxone. FL-AHCA cases were defined by the following T and F codes from the International Classification of Diseases 10: T40.0-T40.4, T40.60, T40.69, F11.12, F11.120, F11.121, F11.122, F11.129, F11.22, F11.220, F11.221, F11.222, F11.229, F11.92, F11.920, F11.921, F11.922, F11.929. For all “T” codes, the 6th character was either a “1” or “4,” because ESOOS is focused on unintentional and undetermined drug overdoses, ergo we excluded ED visits that are related to intentional self-harm (i.e., “2”) or assault (i.e., “3”). Lastly, for all “T” codes, the 7th character we included was the initial ED encounter (i.e., “A”) because the purpose of the system is to capture increases or decreases in acute overdoses. To improve our match rate, account for typographical errors, and account for the discriminatory power some values may contain, we employed probabilistic linkage using Link Plus software developed by the CDC Cancer Division. Blocking occurred among social security number (SSN), event date, patient age in years, and date of birth (DOB). Next, we matched both datasets on ten variables: event date, age, sex, DOB, ethnicity, facility code, hospital zip code, race, SSN, and patient’s residence zip code. Further pruning was performed to ensure all matches were within a 24-hour time interval. Data management and statistical analyses were performed using SAS® statistical software, version 9.4 (SAS Institute Inc., Cary, NC, USA). We assessed EMS measurement validity by sensitivity, specificity, and positive predictive value (PPV). Next, risk factors were identified by stepwise multivariable logistic regression to improve the accuracy of the FL-ESOOS definition. Significant risk factors from the parsimonious multivariable model were used to simulate unique combinations to estimate the maximum sensitivity and PPV for OIOD.ResultsPrior to merging, FL-EMSTARS contained 1,308,825 unique incident-patient records, where FL-AHCA contained 8,862,566 unique incident-patient records. Of these, we conservatively linked 892,593 (68.2%) of the FL-EMSTARS dataset with FL-AHCA. Our probabilistic linkage represents an 18.2% linkage improvement over previous FL-DOH deterministic strategies (J Jiang, unpublished CSTE presentation, 2018). Among the matched pairs we estimated 8,526 OIOD, 0.96% prevalence, using the FL-AHCA case definition. Whereas the FL-ESOOS syndromic case definition estimated 6,188 OIOD, 0.69% prevalence. The FL-ESOOS OIOD syndromic case definition demonstrated 31.64% sensitivity, 99.61% specificity, and 43.60% PPV. Among false negatives, the response to administrated naloxone among OIOD was 39.37% “not known,” 37.95% “unchanged,” and 0.28% “worse.” We altered the FL-ESOOS EMSTARS case definition for OIOD to include those who were administered naloxone regardless of their response to the medication. We observed 12.37% sensitivity increase to 44.01%, 0.56% specificity decrease to 99.05%, and 12.78% PPV decrease to 30.82%.Are final multivariable model is as follows: lnOdds(Opioid Overdose)= 12.66 – 0.5459(Med Albuterol) – 0.9568(Med Aspirin) – 0.5765(Med Midazolam Hydrochloride) – 0.8690(Med Morphine Sulfate) + 1.4103 (Med Naloxone) – 0.7694(Med Nitroglycerine) + 0.3622(Med Oxygen) – 0.3702(Med Phenergan) – 0.8820(Med Epinephrine 1:10000) – 0.7397(Med Fentanyl) – 0.6376(Med Sodium Bicarbonate) – 0.2725(Med Normal Saline) + 0.3935(Med Other-Not Listed) + 0.6300(PPI General Malaise) + 0.8476(PPI Other, Non-Traumatic Pain) + 0.8725(PPI Airway Obstruction) + 0.4808(PPI Allergic reaction) + 1.4948(PPI Altered level of consciousness) + 1.5481(PPI Behavioral/psychiatric disorder) + 1.3843(PPI Cardiac arrest) + 2.3913(PPI Poisoning/drug ingestion) + 2.2418(PPI Intentional Drug Use; Related Problems) + 0.2783(PPI Respiratory distress) + 2.0305(PPI Respiratory arrest) + 0.4292(PPI Stroke/CVA) + 0.5402(PPI Syncope/fainting) + 0.5219(PSI Other, Non-Traumatic Pain) + 0.9355(PSI Allergic reaction) + 0.3521(PSI Altered level of consciousness) + 0.9036(PSI Poisoning/drug ingestion) + 0.9661(PSI Intentional Drug Use; Related Problems) + 0.3766(PSI Respiratory Distress) + 1.1802(PSI Respiratory Arrest).We plotted the multivariable sensitivity and PPV by probaiblity cutoff value to determine which would produce the best discrimination (see Figure 1). By incorporating a probability cutoff value ≥ 0.22, we can inprove both sensitivity and PPV. Specifically, we can achieve 45.48% sensitivity, 99.32% specificity, and 45.48% PPV.ConclusionsThe sensitivity of the FL-ESOOS surveillance system is not generally high but could still be useful if subsequent validation shows sensitivity stability. Regarding maximizing FL-ESOOS sensitivity and PPV, we deomonstrated that our mulitvariable model with an appropriate probability cutoff value performes better than the current case definition. This study contributes to the limited literature on Florida non-fatal opioid overdoses with a specific emphasis on validating EMS records. New unique indicator combinations are possible to increase sensitivity and PPV but should be thoroughly investigated to balance the tradeoffs to optimize the system’s ability to detect non-fatal overdoses and to discriminate true cases.References1. Rhode Island Department of Health. Rhode Island Enhanced State Opioid Overdose Surveillance (ESOOS) Case Definition For Emergency Medical Services (EMS).; 2017.2. Jiang J, Mai A, Card K, Sturms J, McCoy S. EMS Naloxone Administration for Implication of Opioid Overdose. Presentation presented at the: 2018; CSTE Annual Conference.

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Objective: To create a baseline social network analysis to assess connectivity of healthcare entities through patient movement in Orange County, Florida.Introduction: In the realm of public health, there has been an increasing trend in exploration of social network analyses (SNAs). SNAs are methodological and theoretical tools that describe the connections of people, partnerships, disease transmission, the interorganizational structure of health systems, the role of social support, and social capital1. The Florida Department of Health in Orange County (DOH-Orange) developed a reproducible baseline social network analysis of patient movement across healthcare entities to gain a county-wide perspective of all actors and influences in our healthcare system. The recognition of the role each healthcare entity contributes to Orange County, Florida can assist DOH-Orange in developing facility-specific implementations such as increased usage of personal protective equipment, environmental assessments, and enhanced surveillance.Methods: DOH-Orange received Centers for Medicare and Medicaid Services data from the Centers for Disease Control and Prevention Division of Health Care Quality Promotion. The dataset contains the frequency of patients transferred across Medicare accepting healthcare entities during 2016. We constructed a directional sociogram using R package statnet version 2016.9, built under R version 3.3.3. Node colors are categorized by the type of healthcare entity represented (e.g., long-term care facilities, acute care hospitals, post-acute care hospitals, and other) and depict the frequency of patients transferred with weighted edges. Node sizes are proportional to the log reduction of the total degree of patients transferred, and are arranged with the Fruchterman-Reingold layout. We calculated standard network indices to assess the magnitude of connectedness across healthcare entities in Orange County, Florida. Additionally, we calculated node-level indices to gain a perspective of the strength of each individual entity.Results: A total of 48 healthcare entities were included in the sociogram, with 44% representing Orange County, Florida. Although the majority of the healthcare entities are located in nearby counties, 90% of patient movement occurred across Orange County entities. The range of patient movement was 1 to 5196 with a median of 15 patients transferred in 2016. The network in Orange County is sparse with a density of 0.05, but the movement of patients across the healthcare entities is predominately symmetric (reciprocity=97%). The sociogram is centralized (degree centrality= 0.70) and contains a vast amount of entities that serve as connectors (betweenness centrality=0.53). The node-level indices identified our acute care hospitals and long term acute care hospitals are the connectors of our county health system.Conclusions: The SNA of patient movement across healthcare entities in Orange County, Florida provides public health with knowledge of the influences entities contribute to the county healthcare system. This will contribute to identifying changes in the network in future research on the transmission risks of specific diseases/conditions, which will enhance prioritization of targeted interventions within healthcare entities. In addition, SNAs can assist in targeting disease control efforts during outbreak investigations and support health communication. A SNA toolkit will be distributed to other local county health departments for reproduction to determine baseline data and integrate county-specific SNAs.

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I sat alone on the beach under the shade of a big umbrella. My husband, Bill, and our three children were in the condo taking a break from the Florida sunshine. Dreamily, I gazed at the vast Gulf of Mexico, the brilliant blue sky stretching endlessly above. I was sitting about 50 feet from the surf, but I couldn't actually see the waves hitting the beach; I was almost blind. It was a windy day in late May and I loved feeling the ocean breeze sweeping over me. I imagined I could hear the waves crashing onto the surf, but the sound was only a memory. I was totally deaf. Although I had a cochlear implant and could hear the waves, the cry of sea gulls, and many other sounds with the technology, I wasn't wearing it at the moment and everything I heard was in my mind. As a child, my understanding of speech was better and my vision was clearer. My diagnosis was optic atrophy at age 5 and my vision gradually degenerated over the years. For unknown reasons, nerve damage caused hearing loss and during my teens, my hearing grew worse and worse until by the time I was ready for college, I was profoundly deaf. I chose to attend Gallaudet University because my high school teachers and my parents felt I would receive better services as a deaf and blind student. I feel it was a very good decision; when I entered Gallaudet, it was like entering a new and exhilarating world. Before attending Gallaudet, while I struggled to cope with hearing loss combined with severely low vision, my world grew smaller and smaller, not being able to communicate efficiently with others. At Gallaudet, I suddenly found I could communicate with almost anybody I met on campus using sign language. Thus, my self-confidence and independence grew as I proceeded to get a college education.It wasn't an easy route to follow. I didn't know Braille at the time and depended on using a CCTV (closed captioned television) electronic aid which magnified text, enabling me to read all my college books. I also relied on the assistance of a class aid who interpreted all my teachers' lectures and class discussions because I was unable to see people's signing unless they signed right in front of my face. It was slow going and often frustrating, trying to keep involved socially and keeping up with my coursework but when I was 13 years old, my vision specialist teacher who had worked with me from 5th grade until I graduated from high school, wrote a note for me saying, "Anything worthwhile seldom comes easy." The phrase stuck in my mind and I tried to follow this philosophy. In 1989 after 7 years of persistence, I graduated with a Bachelor's of Arts degree in psychology. With the B.A. in hand and having developed good communication skills with deaf and deaf-blind people using sign language and ASL (American Sign Language), I was ready to face the world. But I wasn't exactly ready; I knew I wanted a professional job working with deaf-blind people and the way to get there was to earn a master's degree. I applied for admission into Gallaudet's graduate school and was accepted into the vocational rehabilitation counselling program. While I thoroughly enjoyed graduate school experience, I got to work with my class mates one-on-one more often and there were a lot more hands-on activities, it became obvious to me that I wasn't prepared for graduate school. I needed to learn Braille and how to use Braille technology; my vision had worsened a lot since starting college. In addition, I needed a break from school and needed to gain experience in the working world. After completing one and a half years and earning 15 credit hours in the master's program, I left Gallaudet and found a job in Baltimore, Maryland.The job was with a new program for adults who were visually and hearing impaired and mentally disabled. My job was assisting the clients with independent living and work related skills. Most of the other staff were deaf, communicating via ASL. By then, I was skilled using tactile signing, putting my hand on the back of the signer's hand to follow movements by touch, and I made friends with co-workers. I felt grown up and independent working full-time, living in my own apartment, using the subway train and bus to travel to and from work. I didn't have any serious problems living on my own. There was a supermarket up the road to which I could walk or ride a bus. But I needed a taxi ride back to the apartment when I had more groceries than I could carry. I would leave a sign I made out of cardboard and wrote my address in big black numbers, on my apartment door to help the driver find my place. I used a white cane and upon moving to Baltimore, an Orientation and Mobility (O and M) teacher who worked with blind people, showing them how to travel in the city, taught me the route to my work place using the subway and bus. Thus, I was independent and knew my way to work as well as to a nearby shopping mall. One day as I stood on the subway station platform holding my white cane, waiting for my train, the opposite train pulled in. As I stood watching passengers hurrying to board, knowing my train would arrive soon on the other side, a woman ran up to me and started pulling my arm. I handed her my notebook and black marker I used for communicating with people in the public, telling her I couldn't hear and would she please write in large print? She frantically scribbled something, but I couldn't read the note. She then gave me back the pen and pad, grabbed my arm again and started pulling me towards the train. I refused to budge, gesturing towards the opposite tracks, clearly indicating I was waiting for the other train. Finally, she let go, dashed into the train before the doors closed. I watched the train pull away, sadly reflecting that some people who wanted to help, just didn't understand how to approach disabled people. As a deaf-blind traveller, it was my duty to help educate the general public how to assist disabled persons in a humane way. After I established my new life for a few months, Bill was offered a position in the same program and moved to Baltimore to join me. He had worked at the Helen Keller National Centre in New York where I met him while doing a summer internship there three years before. I was thrilled when he got the job working beside me and we got to know each other on a daily basis. We had been dating since we met although I was in college and he was working and living in New York and then Cleveland, Ohio. Bill being hearing and sighted, was skilled in sign language and communication techniques with deaf-blind people. He had a wonderful attitude towards disabled people and made me feel like a normal person who was capable of doing things. We shared a lot and were very comfortable with each other. After nearly six months together in Baltimore, we married in May 1992, several weeks before my 28th birthday.After our first year of marriage living in Maryland, Bill and I moved to Little Rock, Arkansas. We wanted to live closer to my family and parents, Ron and Judy Cummings, who lived in Poplar Bluff, Missouri, 176 miles north of Little Rock. I wanted to go back to school and entered the deaf education program at the University of Arkansas at Little Rock with the goal of becoming a teacher for deaf-blind students. I never dreamed I would have a deaf-blind child of my own one day. My vision and hearing loss were caused by nerve damage and no one else in my family nor Bill's had a similar disability.I was pregnant with our first child when I entered UALR. In spite of my growing belly, I enjoyed the teacher training experience. I worked with a deaf-blind 12-year-old student and her teacher at the Arkansas School for the Deaf; observed two energetic four-year-olds in the pre-school program. But when my son, Joe was born in June 1994, my world changed once again. School became less important and motherhood became the ultimate. As a deaf-blind person, I wanted to be the best mom within my abilities.I decided that establishing good communication with my child was an important aspect of being a deaf-blind mom. Bill was in full agreement and we would set Joe on the kitchen table in his infant carrier, reciting together in sign language, "The three Bears". I could see Joe's tiny fists and feet wave excitedly in the air as he watched us signing children's stories. I would encourage Joe to hold my fingers while I signed to him, trying to establish a tactile signing relationship. But he was almost two years old when he finally understood that he needed to sign into my hands. We were sitting at the table and I had a bag of cookies. I refused to give him one until he made the sign for "cookie" in my hand. I quickly rewarded him with a cookie and he got three or four each time he made the sign in my hand. Today at 16, Joe is an expert finger speller and can effectively communicate with me and his younger deaf-blind brother, Ben.When Joe was two and a half, I decided to explore a cochlear implant. It was 1996 and we were living in Poplar Bluff by then. My cousin, who was studying audiology, told me that people using cochlear implants were able to understand sound so well they didn't need good vision. I made an appointment with the St. Louis cochlear implant program and after being evaluated, I decided to go ahead. I am glad I have a cochlear implant. After months of practice I learned to use the new sound and was eventually able to understand many environmental sounds. I never regained the ability of understanding speech, though, but I could hear people's voices very clearly, the sound of laughter, birds singing, and many more. Being able to hear my children's voices is especially wonderful, even when they get noisy and I get a headache. That fall I went to Leader Dogs School for the Blind (LDSB) where I met Milo, a large yellow Labrador retriever. At LDSB I learned how to care for and work with a dog guide. Having Milo as my companion and guide was like stepping into another new and wonderful world of independence. With Milo, I could walk briskly and feel secure. Milo was a big help as a deaf-blind mom, too. With Milo's guiding help, it was wonderful following my children while they rode tricycles or bikes and the whole family enjoyed going out for walks together. Our second son, Ben, was born in February 1999. He was a perfectly healthy little boy and Bill and I were looking forward to raising two sons. Joe was four and a half years old when Ben was born and was fascinated in his new brother. But when Ben was 5 months old, he was diagnosed with Langerhans Cell Histiocytosis (LCH), a rare childhood disease and in some cases, fatal. It was a long, scary road we followed as Ben received treatment at the children's hospital in St. Louis which involved making the 150 mile trip almost weekly for chemotherapy and doctor check-ups. Through it all, Ben was a happy little boy, in spite of the terrible rash that affected his scalp and diaper area, a symptom of LCH. Bill and I knew that we had to do everything possible to help Ben. When he was a year old, his condition seemed stable enough for me to feel comfortable leaving my family for two months to study Braille and learn new technology skills at a program in Kansas City. My vision had deteriorated to a point where I could no longer use a CCTV.Bill's mom, Marie Reid, who lived in Cleveland, Ohio, made a special trip to stay at our home in Poplar Bluff to help Bill with the boys while I was gone. I was successful at the program, learning Braille, making a change from magnification to Braille technology. Upon returning home, I began looking for a job and found employment as a deaf-blind specialist in a new project in Mississippi. The job was in Tupelo and we moved to northern Mississippi, settling into a new life. We transferred Ben's treatment to St. Judes Children's hospital located in Memphis, 94 miles west of Tupelo. I went to work and Bill stayed home with the boys, which worked well. When Ben had to go to St. Judes every three weeks for chemotherapy, Bill was able to drive him. The treatment was successful, the rash had disappeared and there were no traces of LCH in Ben's blood tests. But when he was almost 3 years old, he was diagnosed with optic atrophy, the same eye disease I suffered from and an audiologist detected signs of inner ear hearing loss.Shocked at the news that our little son would grow up legally blind and perhaps become deaf, Bill and I had to rethink our future. We knew we wanted Ben to have a good life and as a deaf-blind child, he needed quality services. We chose to move to Pittsburgh, Pennsylvania because I knew there were good services for deaf-blind people and I could function independently as a stay-home mom. In addition, Cleveland, Ohio, where Marie Reid and several of Bill's siblings lived, was a two hour's drive from Pittsburgh and living near family was important to us. With regret, I left my job opportunity and new friends and we re-located to Pittsburgh. We lived on a quiet street near Squirrel Hill and enrolled Joe into a near-by Catholic school. Ben received excellent early intervention services through the Pittsburgh public school, beginning Braille, using a white cane and tactile signing. The Pennsylvania services for the blind generously purchased a wonderful computer system and Braille display for me to use at home. I was able to communicate with Joe's and Ben's teachers and other contacts using e-mail. Ben's Braille teacher provided us with several print/Braille books which I read to the boys while Ben touched the tactile pictures. I made friends in the deaf and deaf-blind community and our family attended social events. Besides the social benefits of a deaf community, Pittsburgh offered a wonderful interpreting service and I was able to take Ben to doctor appointments knowing an interpreter would meet me at the hospital to assist with communication. I also found people who were willing to help me as volunteer SSPs (support Service Providers), persons whose role is to assist a deaf-blind person in any way, such as shopping, going to the bank, etc. Thus, I was able to function quite independently while Bill worked. Perhaps Bill and I were a bit crazy; after all, we had enough on our plate with a deaf-blind son and a deaf-blind mom, but love is a mysterious thing. In October 2003, Tim was born and our family was complete. Having two school-aged children and a baby on my hands was too much for me to handle alone. Bill was working and busy with culinary arts school. We realized we needed more help with the children, plus the high cost of living in the city was a struggle for us. We decided for the family's best interest, it would be better to move back to Poplar Bluff. After Joe and Ben were out of school in June, my mom flew out to Pittsburgh to escort them back to her home while Bill finished his externship for his culinary arts degree and in the late summer of 2004, we packed up our apartment, said good-bye to Pittsburgh, and drove to Missouri. The move was a good decision in many ways. Poplar Bluff, a rural town in south-eastern Missouri, has been my hometown since I was 10 years old. My extended family live there and the boys are thriving growing up among their cousins. Ben is receiving Braille and sign language services at public school and reads Braille faster than me!While both Bill and I are deeply satisfied knowing our children are happy, we have made personal sacrifices. Bill has given up his career satisfaction as a professional cook, needing to help look after the children and house. I have given up the benefits of city life such as interpreting and SSP services, not to mention the social benefits of a deaf community. But the children's well-being comes first, and I have found ways to fulfil my needs by getting involved with on-line groups for deaf-blind people, including writers and poets. I have taken a great interest in writing, especially children's stories and hope to establish a career as a writer. While I work on my computer, Bill keeps busy engaging the boys in various projects. They have built a screened-in tree house in the backyard where Ben and Tim like to sleep during warm summer nights.“It's almost 5 o'clock," Bill signed into my hand, rousing me from my thoughts. Time to prepare for our homeward journey the next day to Poplar Bluff, Missouri.Christy and Family

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Abstract Resources currently available to the scientific community that may be of interest for endocrinology research are described briefly here. More information is available through The Endocrine Society Home Page (http://www.endo-society.org) or the information provided below. HUMAN TISSUE RESOURCES NCI - Cooperative Human Tissue Network (CHTN) The NCI Cooperative Human Tissue Network (CHTN) provides normal, benign, precancerous, and cancerous human tissue to the scientific community for biomedical research. Specimens are collected according to the investigator’s individual protocol. Information provided with the specimens includes routine histopathologic and demographic data. Contact the CHTN Web site at http://www-chtn.ims.nci.nih.gov, or 1-866-GO2-CHTN (1-866-462-2486). NCI - Cooperative Breast Cancer Tissue Resource (CBCTR) The NCI Cooperative Breast Cancer Tissue Resource (CBCTR) can provide researchers with access to over 9,000 cases of formalin-fixed, paraffin-embedded primary breast cancer specimens, with associated pathologic, clinical, and outcome data. All specimens are evaluated for pathologic diagnosis by CBCTR pathologists using standard diagnostic criteria. The collection is particularly well suited for validation studies of diagnostic and prognostic markers. Researchers can search an online database to determine whether the resource specimens and data meet their needs. Contact CBCTR’s Web site at: http://www-cbctr.ims.nci.nih.gov, or Ms. Sherrill Long, Information Management Services, Inc., (301) 984-3445; e-mail: longs@imsweb.com. NCI - Cooperative Prostate Cancer Tissue Resource (CPCTR) The NCI Cooperative Prostate Cancer Tissue Resource (CPCTR) can provide researchers with access to paraffin-embedded and frozen prostate cancer tissues with associated clinical and outcome data. The collection is particularly useful for validation studies of diagnostic and prognostic markers. Questions about the resource should be directed to ASK-CPCTR-L@LIST.NIH.GOV. Additional information can be obtained from CPCTR’s Web site at http://www.prostatetissues.org, or by contacting Ms. Sherrill Long, Information Management Services, Inc., (301) 984-3445; e-mail: longs@imsweb.com. NCI - AIDS and Cancer Specimen Resource (ACSR) The AIDS and Cancer Specimen Resource (ACSR) provides qualified researchers with tissue, cell, blood, and fluid specimens, as well as clinical data from patients with AIDS and cancer. The specimens and clinical data are available for research studies, particularly those that translate basic research findings to clinical application. Contact the ACSR Web site (http://acsr.ucsf.edu/), or Dr. Jodi Black, (301) 402-6293; e-mail: jb377x@nih.gov. NCI - Breast, Ovarian, and Colorectal Cancer Family Registries (CFRs) The Cancer Family Registries (CFRs) include two international registries: the Cancer Family Registry for Breast Cancer Studies (Breast CFR) and the Cancer Family Registry for Colorectal Cancer Studies (Colon CFR). The Breast CFR provides family history information, biological specimens, and epidemiologic and clinical data from clinic-based and population-based families at risk for breast and ovarian cancers. The Breast CFR infrastructure is particularly suited to support interdisciplinary and translational breast cancer research. Similarly, the Colon CFR collection includes family history information, epidemiologic and clinical data, and related biological specimens from individuals with colorectal cancer and their families. The colon CFR is a resource for population- and clinic-based translational research in the genetic epidemiology of colorectal cancer. For information on these registries, contact the CFR Web site (http://epi.grants.cancer.gov/cfr.html) or (301) 496-9600. NCI - Specimen Resource Locator The NCI Specimen Resource Locator (http://cancer.gov/specimens) is a database that helps researchers locate specimens for research. The database includes resources such as tissue banks and tissue procurement systems with access to normal, benign, precancerous, and/or cancerous human tissue covering a wide variety of organ sites. Researchers specify the types of specimens, number of cases, preservation methods, and associated data they require. The Locator will search the database and return a list of tissue resources most likely to meet their requirements. When no match is obtained, the researcher is referred to the NCI Tissue Expediter [(301) 496-7147; e-mail: tissexp@mail.nih.gov]. The Tissue Expediter is a scientist who can help match researchers with appropriate resources or identify appropriate collaborators when those are necessary. NIDDK - Biologic Samples from Diabetic Study Foundation A portion (1/3) of all stored nonrenewable samples (plasma, serum, urine) from subjects enrolled in the Diabetes Control and Complications Trial (DCCT) is available for use by the scientific community to address questions for which these samples may be invaluable. Announcements for using this resource appear in the NIH Guide for Grants and Contractsperiodically. Inquiries may be addressed to: Catherine C. Cowie, Ph.D., Director, Type I Diabetes Clinical Trials Program, NIDDK, 6707 Democracy Blvd., Room 691, National Institute of Diabetes and Digestive and Kidney Diseases, Bethesda, MD 20814-9692. Phone: (301) 594-8804; fax: (301) 480-3503; e-mail: cowiec@extra.niddk.nih.gov. NICHD - Brain and Tissue Bank for Developmental Disorders The purpose of the Bank is to collect, preserve, and distribute human tissues to investigators interested in autism and developmental disorders; normal tissues may be available for other research purposes. Further information can be obtained at: www.btbank.org. The contact persons are H. Ron Zielke or Sally Wisniewsky, University of Maryland (1-800-847-1539), and Carol Petito or Stephanie Lojko, University of Miami (1-800-592-7246). NCRR - Human Tissues and Organs Resource (HTOR) The Human Tissues and Organs Resource (HTOR) cooperative agreement supports a procurement network developed by the National Disease Research Interchange (NDRI), a not-for-profit organization. By collaborating with various medical centers, hospitals, pathology services, eye banks, tissue banks, and organ procurement organizations, HTOR provides a wide variety of human tissues and organs—both diseased and normal—to researchers for laboratory studies. Such samples include tissues from the central nervous system and brain; cardiovascular system; endocrine system; eyes, bone, and cartilage. For further information, consult the NDRI Web site (www.ndri.com) or contact Ms. Sally Strickler at NDRI, 1880 John F. Kennedy Boulevard, 6th Floor, Philadelphia, PA 19103. Phone: (800) 222-6374, ext. 227; fax: (215) 557-7154; e-mail: sstrickler@ndri.com. NCRR - Islet Cell Resource (ICR) With support from NCRR, 10 Islet Cell Resource (ICR) centers isolate, purify, and characterize human pancreatic islets for subsequent transplantation into patients with type I diabetes. The ICR centers procure whole pancreata and acquire relevant data about donors; improve islet isolation and purification techniques; distribute islets for use in approved clinical protocols; and perfect the methods of storage and shipping. In this way, the centers optimize the viability, function, and availability of islets and help clinical researchers capitalize on the recently reported successes in islet transplantation. Information on submitting requests for islet cells can be obtained from Richard A. Knazek, M.D., Division of Clinical Research, NCRR, NIH, 6705 Rockledge Drive, Bethesda, MD 20892. Phone (301) 435-0790; fax (301) 480-3661; e-mail: richardk@ncrr.nih.gov. NIA - SWAN Repository (longitudinal, multiethnic study of women at midlife including the menopausal transition) The SWAN Repository is a biologic specimen bank of the Study of Women’s Health Across the Nation (SWAN). The SWAN cohort was recruited in 1996/7 and consists of 3302 African-American, Caucasian, Chinese-American, Hispanic, and Japanese-American women. The SWAN Repository contains blood and urine specimens from each study participant’s annual visit, at which time medical and health history, psychosocial measures, biological measures, and anthropometric data are also collected. In addition, a subset of participants provide urine samples over the length of one menstrual cycle each year. All of these samples are in the SWAN Repository and are available to researchers who wish to study the midlife and menopausal transition. A DNA sample repository for SWAN is in development. To learn more about the SWAN Repository and how to apply to use SWAN Repository specimens, contact the Web site at http://www.swanrepository.com or Dr. MaryFran Sowers, University of Michigan, School of Public Health, Epidemiology Dept., (734) 936-3892; e-mail: mfsowers@umich.edu. HUMAN AND ANIMAL CELL AND BIOLOGIC REAGENT RESOURCES NIDDK - National Hormone and Peptide Program The National Hormone and Peptide Program (NHPP) offers peptide hormones and their antisera, tissues (rat hypothalami), and miscellaneous reagents to qualified investigators. These reagents are supplied for research purposes only, not for therapeutic, diagnostic, or commercial uses. These materials can be obtained from Dr. A. F. Parlow of the Harbor-UCLA Medical Center, Research and Education Institute, Torrance, CA. A more complete description of resources within this program is provided in The Endocrine Society journals. Direct scientific-technical inquiry to NHPP Scientific Director, Dr. Al Parlow, at phone: (310) 222-3537; fax: (310) 222-3432; e-mail: parlow@humc.edu. Visit the NHPP Web site at http://www.humc.edu/hormones. NICHD - National Hormone and Pituitary Program (see NIDDK listing) Following is a list of reagents currently available through the resources of NICHD: Androgen receptor and peptide antigen Recombinant monkey (cynomolgus) and baboon luteinizing hormone and follicle-stimulating hormone and antisera NIA - Aging Cell Bank To facilitate aging research on cells in culture, the NIA provides support for the Aging Cell Bank located at the Coriell Institute for Medical Research in Camden, NJ. The Aged Cell Bank provides fibroblast, lymphoblastoid, and differentiated cell lines from a wide range of human age-related conditions and other mammalian species, as well as DNA from a limited subset of cell lines. For further information, the Aged Cell Bank catalog can be accessed at http://locus.umdnj.edu/nia or contact Dr. Donald Coppock at 1-800-752-3805. NCRR - Various Cell Repositories NCRR maintains the following cell repository resources: American Type Culture Collection, National Cell Culture Center, National Stem Cell Resource, and the Yeast Genetic Stock Center. Further information regarding these resources may be obtained through the NCRR Web site at: www.ncrr.nih.gov/ncrrprog/cmpdir/BIOLOG.asp. ANIMAL RESOURCES NIA - Aging Rodent Resources NIA maintains both rat and mouse colonies for use by the scientific community. The animals available range in age from 1 to 36 months. A repository of fresh-frozen tissue from the NIA aged rodent colonies is stocked with tissue from mouse and rat strains, including caloric-restricted BALB/c mice. The NIA also maintains a colony of calorically restricted rodents of selected genotypes, which are available to the scientific community. For further information, please refer to the Aged Rodent information handbook at http://www.nih.gov/nia/research/rodent.htm or contact Dr. Nancy Nadon, Office of Biological Resources and Resource Development, NIA. Phone: (301) 496-0181; fax: (301) 402-5597; e-mail: rodents@nia.nih.gov. NCRR - Mutant Mouse Regional Resource Centers (MMRRC) The Mutant Mouse Regional Resource Center (MMRRC) Program consists of centers that collectively operate as a one-stop shop to serve the biomedical research community. Investigators who have created select mutant mouse models may donate their models to an MMRRC for broad dissemination to other investigators who request them for noncommercial research investigations related to human health, disease, and treatments. The NCRR Division of Comparative Medicine (DCM) supports the MMRRCs, which are electronically linked through the MMRRC Informatics Coordinating Center (ICC) to function as one facility. The ICC, located at The Jackson Laboratory in Bar Harbor, ME, provides database and other informatics support to the MMRRC to give the research community a single entry point to the program. Further information can be obtained from the Web site at http://www.mmrrc.org, or from Franziska Grieder, D.V.M., Ph.D., Division of Comparative Medicine, NCRR. Phone (301) 435-0744; fax: (301) 480-3819; e-mail: griederf@ncrr.nih.gov. NCRR - Induced Mutant Mouse Resource (IMR) The Induced Mutant Mouse Resource (IMR) at The Jackson Laboratory provides researchers with genetically engineered mice (transgenic, targeted mutant, retroviral insertional mutant, and chemically induced mutant mice). The function of the IMR is to select, import, cryopreserve, maintain, and distribute these important strains of mice to the research community. To improve their value for research, the IMR also undertakes genetic development of stocks, such as transferring mutant genes or transgenes to defined genetic backgrounds and combining transgenes and/or targeted mutations to create new mouse models for research. Over 800 mutant stocks have been accepted by the IMR. Current holdings include models for research on cancer, immunological and inflammatory diseases, neurological diseases and behavioral disorders, cardiovascular diseases, developmental disorders, metabolic and other diseases, reporter (e.g. GFP) and recombinase (e.g. cre/loxP) strains. About 8 strains a month are being added to the IMR holdings. A list of all strains may be obtained from the IMR Web site: www.jax.org/resources/documents/imr/. Online submission forms are also available on that site. All mice can be ordered by calling The Jackson Laboratory’s Customer Service Department at 1-800-422-MICE or (207) 288-5845 or by faxing (207) 288-6150. NIDDK - Mouse Metabolic Phenotyping Centers The mission of the Mouse Metabolic Phenotyping Centers is to provide the scientific community with standardized, high-quality metabolic and physiologic phenotyping services for mouse models of diabetes, diabetic complications, obesity, and related disorders. Researchers can ship mice to one of the four Centers (University of Cincinnati, University of Texas Southwestern Medical Center, Vanderbilt University, and Yale University) and obtain on a fee-for-service basis a range of complex exams used to characterize mouse metabolism, blood composition, energy balance, eating and exercise, organ function and morphology, physiology, and histology. Many tests are done in living animals and are designed to elucidate the subtle hallmarks of metabolic disease. Information, including a complete list of available tests, can be found at www.mmpc.org, or contact Dr. Maren R. Laughlin, NIDDK, at (301) 594-8802; e-mail: Maren.Laughlin@nih.gov; or Dr. Kristin Abraham, NIDDK, at (301) 451-8048; e-mail: abrahamk@extra.niddk.nih.gov. NCRR - National Primate Research Centers (NPRCs) National Primate Research Centers (NPRCs)* are a network of eight highly specialized facilities for nonhuman primates (NHP) research. Funded by grants through NCRR’s Division of Comparative Medicine (DCM), each center, staffed with experienced research and support staff, provides the appropriate research environment to foster the development of NHP models of human health and disease for biomedical investigations. The NPRCs are affiliated with academic institutions and are accessible to eligible biomedical and behavioral investigators supported by research project grants from the National Institutes of Health and other sources. Further information may be obtained from the notice, Procedures for Accessing Regional Primate Research Centers, published in the NIH Guide for Grants and Contracts at http://grants2.nih.gov/grants/guide/notice-files/not97-014.html, or from Jerry A. Robinson, Ph.D., Director, National Primate Research Centers and AIDS Animal Models Program, Division of Comparative Medicine, NCRR. Phone: (301) 435-0744; fax: (301) 480-3819; e-mail: JerryR@ncrr.nih.gov. *The National Primate Research Centers were formerly called Regional Primate Research Centers. The name was changed in April 2002 to reflect the expanded role of the centers. NIA - Nonhuman Primates, Aging Set-Aside Colony NIA maintains approximately 200 nonhuman primates (M. mulatta) at four National Primate Research Centers (see above) for conducting research on aging. These animals range in age from 18 to 35 years. While these animals are predominantly reserved for non-invasive research, exceptions can be made to this policy. For further information, please contact Dr. Nancy Nadon, Office of Biological Resources and Resource Development, NIA. Phone: (301) 496-0181; fax: (301) 402-0010; e-mail: nadonn@nia.nih.gov. NIA - Obesity, Diabetes and Aging Animal Resource (ODAAR) The NIA supports a colony of aged rhesus macaques, many of which are obese and/or diabetic. This is a long-term colony of monkeys housed at the University of Maryland. They have been extensively and longitudinally characterized for general health variables, blood chemistry, food intake, and body weight. Diabetic monkeys are tested daily for urine glucose and ketone levels, and prediabetic monkeys are tested weekly. Data for some of the monkeys extends as far back as 15 years. This unique resource is available for collaborative studies. ODAAR has a significant amount of stored tissue collected at necropsy and stored blood collected longitudinally. Serial blood collection or tissue collection at necropsy can also be performed prospectively. Testing and imaging can also be performed on the monkeys. Inquiries regarding collaborative studies using the ODAAR colony should be directed to: Barbara C. Hansen, Ph.D., Director, Obesity and Diabetes Research Center, University of Maryland, 10 South Pine St., Baltimore, MD 21201-1192, Phone: (410) 706-3168; fax: (410) 706-7540; e-mail: bchansen@aol.com. NCRR - Various Animal Resources NCRR maintains the following animal resources: Animal Models and Genetic Stocks, Chimpanzee Biomedical Research Program, NIH Animal Genetic Resource, and the Specific Pathogen Free Macaque Breeding and Research Program. Further information regarding these and other resources may be obtained through the NCRR Web site at www.ncrr.nih.gov/comparative_med.asp. MISCELLANEOUS RESOURCES NCRR - National Gene Vector Laboratories (NGVLs) The National Gene Vector Laboratories (NGVLs), with core funding from NCRR, serve as a resource for researchers to obtain adequate quantities of clinical-grade vectors for human gene transfer protocols. The vector types include retrovirus, lentivirus, adenovirus, adeno-associated virus, and herpes-virus. The NGVLs consist of three vector production centers at: Baylor College of Medicine; City of Hope National Medical Center and Beckman Research Institute; and Indiana University, which also serves as the Coordinating Center for all the laboratories. Two additional laboratories conduct toxicology studies for NGVL-approved investigators. These laboratories are located at the Southern Research Institute and the University of Florida. Additional information about the process for requesting vector production and/or pharmacology/toxicology support should be directed to Ms. Lorraine Rubin, NGVL Project Coordinator, Indiana University School of Medicine. Phone: (317) 274-4519; fax: (317) 278-4518; e-mail: lrubin@iupui.edu. The NGVL Coordinating Center at Indiana University also hosts a Web site: http://www.ngvl.org/. NCRR - General Clinical Research Centers (GCRCs) The General Clinical Research Centers (GCRCs) are a national network of 80 centers that provide optimal settings for medical investigators to conduct safe, controlled, state-of-the-art in-patient and out-patient studies of both children and adults. GCRCs also provide infrastructure and resources that support several career development opportunities. Investigators who have research project funding from the National Institutes of Health (NIH) and other peer-reviewed sources may apply to use GCRCs. Because the GCRCs support a full spectrum of patient-oriented scientific inquiry, researchers who use these centers can benefit from collaborative, multidisciplinary research opportunities. To request access to a GCRC facility, eligible investigators should initially contact a GCRC program director, listed in the National Center for Research Resources (NCRR) Clinical Research Resources Directory (www.ncrr.nih.gov/ncrrprog/clindir/crdirectory.asp). Further information can be obtained from Anthony R. Hayward, M.D., Director, Division of Clinical Research, National Center for Research Resources at NIH. Phone: (301) 435-0790; e-mail: haywarda@ncrr.nih.gov.

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Abstract:

Abstract Resources currently available to the scientific community that may be of interest for endocrinology research are described briefly here. More information is available through The Endocrine Society Home Page (http://www.endo-society.org) or the information provided below. HUMAN TISSUE RESOURCES NCI - Cooperative Human Tissue Network (CHTN) The NCI Cooperative Human Tissue Network (CHTN) provides normal, benign, precancerous, and cancerous human tissue to the scientific community for biomedical research. Specimens are collected according to the investigator’s individual protocol. Information provided with the specimens includes routine histopathologic and demographic data. Contact the CHTN Web site at http://www-chtn.ims.nci.nih.gov, or 1-866-GO2-CHTN (1-866-462-2486). NCI - Cooperative Breast Cancer Tissue Resource (CBCTR) The NCI Cooperative Breast Cancer Tissue Resource (CBCTR) can provide researchers with access to over 9,000 cases of formalin-fixed, paraffin-embedded primary breast cancer specimens, with associated pathologic, clinical, and outcome data. All specimens are evaluated for pathologic diagnosis by CBCTR pathologists using standard diagnostic criteria. The collection is particularly well suited for validation studies of diagnostic and prognostic markers. Researchers can search an online database to determine whether the resource specimens and data meet their needs. Contact CBCTR’s Web site at: http://www-cbctr.ims.nci.nih.gov, or Ms. Sherrill Long, Information Management Services, Inc., (301) 984-3445; e-mail: longs@imsweb.com. NCI - Cooperative Prostate Cancer Tissue Resource (CPCTR) The NCI Cooperative Prostate Cancer Tissue Resource (CPCTR) can provide researchers with access to paraffin-embedded and frozen prostate cancer tissues with associated clinical and outcome data. The collection is particularly useful for validation studies of diagnostic and prognostic markers. Questions about the resource should be directed to ASK-CPCTR-L@LIST.NIH.GOV. Additional information can be obtained from CPCTR’s Web site at http://www.prostatetissues.org, or by contacting Ms. Sherrill Long, Information Management Services, Inc., (301) 984-3445; e-mail: longs@imsweb.com. NCI - AIDS and Cancer Specimen Resource (ACSR) The AIDS and Cancer Specimen Resource (ACSR) provides qualified researchers with tissue, cell, blood, and fluid specimens, as well as clinical data from patients with AIDS and cancer. The specimens and clinical data are available for research studies, particularly those that translate basic research findings to clinical application. Contact the ACSR Web site (http://acsr.ucsf.edu/), or Dr. Jodi Black, (301) 402-6293; e-mail: jb377x@nih.gov. NCI - Breast, Ovarian, and Colorectal Cancer Family Registries (CFRs) The Cancer Family Registries (CFRs) include two international registries: the Cancer Family Registry for Breast Cancer Studies (Breast CFR) and the Cancer Family Registry for Colorectal Cancer Studies (Colon CFR). The Breast CFR provides family history information, biological specimens, and epidemiologic and clinical data from clinic-based and population-based families at risk for breast and ovarian cancers. The Breast CFR infrastructure is particularly suited to support interdisciplinary and translational breast cancer research. Similarly, the Colon CFR collection includes family history information, epidemiologic and clinical data, and related biological specimens from individuals with colorectal cancer and their families. The colon CFR is a resource for population- and clinic-based translational research in the genetic epidemiology of colorectal cancer. For information on these registries, contact the CFR Web site (http://epi.grants.cancer.gov/cfr.html) or (301) 496-9600. NCI - Specimen Resource Locator The NCI Specimen Resource Locator (http://cancer.gov/specimens) is a database that helps researchers locate specimens for research. The database includes resources such as tissue banks and tissue procurement systems with access to normal, benign, precancerous, and/or cancerous human tissue covering a wide variety of organ sites. Researchers specify the types of specimens, number of cases, preservation methods, and associated data they require. The Locator will search the database and return a list of tissue resources most likely to meet their requirements. When no match is obtained, the researcher is referred to the NCI Tissue Expediter [(301) 496-7147; e-mail: tissexp@mail.nih.gov]. The Tissue Expediter is a scientist who can help match researchers with appropriate resources or identify appropriate collaborators when those are necessary. NIDDK - Biologic Samples from Diabetic Study Foundation A portion (1/3) of all stored nonrenewable samples (plasma, serum, urine) from subjects enrolled in the Diabetes Control and Complications Trial (DCCT) is available for use by the scientific community to address questions for which these samples may be invaluable. Announcements for using this resource appear in the NIH Guide for Grants and Contracts periodically. Inquiries may be addressed to: Catherine C. Cowie, Ph.D., Director, Type I Diabetes Clinical Trials Program, NIDDK, 6707 Democracy Blvd., Room 691, National Institute of Diabetes and Digestive and Kidney Diseases, Bethesda, MD 20814-9692. Phone: (301) 594-8804; fax: (301) 480-3503; e-mail: cowiec@extra.niddk.nih.gov. NICHD - Brain and Tissue Bank for Developmental Disorders The purpose of the Bank is to collect, preserve, and distribute human tissues to investigators interested in autism and developmental disorders; normal tissues may be available for other research purposes. Further information can be obtained at: www.btbank.org. The contact persons are H. Ron Zielke or Sally Wisniewsky, University of Maryland (1-800-847-1539), and Carol Petito or Stephanie Lojko, University of Miami (1-800-592-7246). NCRR - Human Tissues and Organs Resource (HTOR) The Human Tissues and Organs Resource (HTOR) cooperative agreement supports a procurement network developed by the National Disease Research Interchange (NDRI), a not-for-profit organization. By collaborating with various medical centers, hospitals, pathology services, eye banks, tissue banks, and organ procurement organizations, HTOR provides a wide variety of human tissues and organs—both diseased and normal—to researchers for laboratory studies. Such samples include tissues from the central nervous system and brain; cardiovascular system; endocrine system; eyes, bone, and cartilage. For further information, consult the NDRI Web site (www.ndri.com) or contact Ms. Sally Strickler at NDRI, 1880 John F. Kennedy Boulevard, 6th Floor, Philadelphia, PA 19103. Phone: (800) 222-6374, ext. 227; fax: (215) 557-7154; e-mail: sstrickler@ndri.com. NCRR - Islet Cell Resource (ICR) With support from NCRR, 10 Islet Cell Resource (ICR) centers isolate, purify, and characterize human pancreatic islets for subsequent transplantation into patients with type I diabetes. The ICR centers procure whole pancreata and acquire relevant data about donors; improve islet isolation and purification techniques; distribute islets for use in approved clinical protocols; and perfect the methods of storage and shipping. In this way, the centers optimize the viability, function, and availability of islets and help clinical researchers capitalize on the recently reported successes in islet transplantation. Information on submitting requests for islet cells can be obtained from Richard A. Knazek, M.D., Division of Clinical Research, NCRR, NIH, 6705 Rockledge Drive, Bethesda, MD 20892. Phone (301) 435-0790; fax (301) 480-3661; e-mail: richardk@ncrr.nih.gov. NIA - SWAN Repository (longitudinal, multiethnic study of women at midlife including the menopausal transition) The SWAN Repository is a biologic specimen bank of the Study of Women’s Health Across the Nation (SWAN). The SWAN cohort was recruited in 1996/7 and consists of 3302 African-American, Caucasian, Chinese-American, Hispanic, and Japanese-American women.144.9.4215http://www.swanrepository.com or Dr. MaryFran Sowers, University of Michigan, School of Public Health, Epidemiology Dept., (734) 936-3892; e-mail: mfsowers@umich.edu. HUMAN AND ANIMAL CELL AND BIOLOGIC REAGENT RESOURCES NIDDK - National Hormone and Peptide Program The National Hormone and Peptide Program (NHPP) offers peptide hormones and their antisera, tissues (rat hypothalami), and miscellaneous reagents to qualified investigators. These reagents are supplied for research purposes only, not for therapeutic, diagnostic, or commercial uses. These materials can be obtained from Dr. A. F. Parlow of the Harbor-UCLA Medical Center, Research and Education Institute, Torrance, CA. A more complete description of resources within this program is provided in The Endocrine Society journals. Direct scientific-technical inquiry to NHPP Scientific Director, Dr. Al Parlow, at phone: (310) 222-3537; fax: (310) 222-3432; e-mail: parlow@humc.edu. Visit the NHPP Web site at http://www.humc.edu/hormones. NICHD - National Hormone and Pituitary Program (see NIDDK listing) Following is a list of reagents currently available through the resources of NICHD: Androgen receptor and peptide antigen Recombinant monkey (cynomolgus) and baboon luteinizing hormone and follicle-stimulating hormone and antisera NIA - Aging Cell Bank To facilitate aging research on cells in culture, the NIA provides support for the Aging Cell Bank located at the Coriell Institute for Medical Research in Camden, NJ. The Aged Cell Bank provides fibroblast, lymphoblastoid, and differentiated cell lines from a wide range of human age-related conditions and other mammalian species, as well as DNA from a limited subset of cell lines. For further information, the Aged Cell Bank catalog can be accessed at http://locus.umdnj.edu/nia or contact Dr. Donald Coppock at 1-800-752-3805. NCRR - Various Cell Repositories NCRR maintains the following cell repository resources: American Type Culture Collection, National Cell Culture Center, National Stem Cell Resource, and the Yeast Genetic Stock Center. Further information regarding these resources may be obtained through the NCRR Web site at: www.ncrr.nih.gov/ncrrprog/cmpdir/BIOLOG.asp. ANIMAL RESOURCES NIA - Aging Rodent Resources NIA maintains both rat and mouse colonies for use by the scientific community. The animals available range in age from 1 to 36 months. A repository of fresh-frozen tissue from the NIA aged rodent colonies is stocked with tissue from mouse and rat strains, including caloric-restricted BALB/c mice. The NIA also maintains a colony of calorically restricted rodents of selected genotypes, which are available to the scientific community. For further information, please refer to the Aged Rodent information handbook at http://www.nih.gov/nia/research/rodent.htm or contact Dr. Nancy Nadon, Office of Biological Resources and Resource Development, NIA. Phone: (301) 496-0181; fax: (301) 402-5597; e-mail: rodents@nia.nih.gov. NCRR - Mutant Mouse Regional Resource Centers (MMRRC) The Mutant Mouse Regional Resource Center (MMRRC) Program consists of centers that collectively operate as a one-stop shop to serve the biomedical research community. Investigators who have created select mutant mouse models may donate their models to an MMRRC for broad dissemination to other investigators who request them for noncommercial research investigations related to human health, disease, and treatments. The NCRR Division of Comparative Medicine (DCM) supports the MMRRCs, which are electronically linked through the MMRRC Informatics Coordinating Center (ICC) to function as one facility. The ICC, located at The Jackson Laboratory in Bar Harbor, ME, provides database and other informatics support to the MMRRC to give the research community a single entry point to the program. Further information can be obtained from the Web site at http://www.mmrrc.org, or from Franziska Grieder, D.V.M., Ph.D., Division of Comparative Medicine, NCRR. Phone (301) 435-0744; fax: (301) 480-3819; e-mail: griederf@ncrr.nih.gov. NCRR - Induced Mutant Mouse Resource (IMR) The Induced Mutant Mouse Resource (IMR) at The Jackson Laboratory provides researchers with genetically engineered mice (transgenic, targeted mutant, retroviral insertional mutant, and chemically induced mutant mice). The function of the IMR is to select, import, cryopreserve, maintain, and distribute these important strains of mice to the research community. To improve their value for research, the IMR also undertakes genetic development of stocks, such as transferring mutant genes or transgenes to defined genetic backgrounds and combining transgenes and/or targeted mutations to create new mouse models for research. Over 800 mutant stocks have been accepted by the IMR. Current holdings include models for research on cancer, immunological and inflammatory diseases, neurological diseases and behavioral disorders, cardiovascular diseases, developmental disorders, metabolic and other diseases, reporter (e.g. GFP) and recombinase (e.g. cre/loxP) strains. About 8 strains a month are being added to the IMR holdings. A list of all strains may be obtained from the IMR Web site: www.jax.org/resources/documents/imr/. Online submission forms are also available on that site. All mice can be ordered by calling The Jackson Laboratory’s Customer Service Department at 1-800-422-MICE or (207) 288-5845 or by faxing (207) 288-6150. NIDDK - Mouse Metabolic Phenotyping Centers The mission of the Mouse Metabolic Phenotyping Centers is to provide the scientific community with standardized, high-quality metabolic and physiologic phenotyping services for mouse models of diabetes, diabetic complications, obesity, and related disorders. Researchers can ship mice to one of the four Centers (University of Cincinnati, University of Texas Southwestern Medical Center, Vanderbilt University, and Yale University) and obtain on a fee-for-service basis a range of complex exams used to characterize mouse metabolism, blood composition, energy balance, eating and exercise, organ function and morphology, physiology, and histology. Many tests are done in living animals and are designed to elucidate the subtle hallmarks of metabolic disease. Information, including a complete list of available tests, can be found at www.mmpc.org, or contact Dr. Maren R. Laughlin, NIDDK, at (301) 594-8802; e-mail: Maren.Laughlin@nih.gov; or Dr. Kristin Abraham, NIDDK, at (301) 451-8048; e-mail: abrahamk@extra.niddk.nih.gov. NCRR - National Primate Research Centers (NPRCs) National Primate Research Centers (NPRCs)* are a network of eight highly specialized facilities for nonhuman primates (NHP) research. Funded by grants through NCRR’s Division of Comparative Medicine (DCM), each center, staffed with experienced research and support staff, provides the appropriate research environment to foster the development of NHP models of human health and disease for biomedical investigations. The NPRCs are affiliated with academic institutions and are accessible to eligible biomedical and behavioral investigators supported by research project grants from the National Institutes of Health and other sources. Further information may be obtained from the notice, Procedures for Accessing Regional Primate Research Centers, published in the NIH Guide for Grants and Contracts at http://grants2.nih.gov/grants/guide/notice-files/not97-014.html, or from Jerry A. Robinson, Ph.D., Director, National Primate Research Centers and AIDS Animal Models Program, Division of Comparative Medicine, NCRR. Phone: (301) 435-0744; fax: (301) 480-3819; e-mail: JerryR@ncrr.nih.gov. *The National Primate Research Centers were formerly called Regional Primate Research Centers. The name was changed in April 2002 to reflect the expanded role of the centers. NIA - Nonhuman Primates, Aging Set-Aside Colony NIA maintains approximately 200 nonhuman primates (M. mulatta) at four National Primate Research Centers (see above) for conducting research on aging. These animals range in age from 18 to 35 years. While these animals are predominantly reserved for non-invasive research, exceptions can be made to this policy. For further information, please contact Dr. Nancy Nadon, Office of Biological Resources and Resource Development, NIA. Phone: (301) 496-0181; fax: (301) 402-0010; e-mail: nadonn@nia.nih.gov. NIA - Obesity, Diabetes and Aging Animal Resource (ODAAR) The NIA supports a colony of aged rhesus macaques, many of which are obese and/or diabetic. This is a long-term colony of monkeys housed at the University of Maryland. They have been extensively and longitudinally characterized for general health variables, blood chemistry, food intake, and body weight. Diabetic monkeys are tested daily for urine glucose and ketone levels, and prediabetic monkeys are tested weekly. Data for some of the monkeys extends as far back as 15 years. This unique resource is available for collaborative studies. ODAAR has a significant amount of stored tissue collected at necropsy and stored blood collected longitudinally. Serial blood collection or tissue collection at necropsy can also be performed prospectively. Testing and imaging can also be performed on the monkeys. Inquiries regarding collaborative studies using the ODAAR colony should be directed to: Barbara C. Hansen, Ph.D., Director, Obesity and Diabetes Research Center, University of Maryland, 10 South Pine St., Baltimore, MD 21201-1192, Phone: (410) 706-3168; fax: (410) 706-7540; e-mail: bchansen@aol.com. NCRR - Various Animal Resources NCRR maintains the following animal resources: Animal Models and Genetic Stocks, Chimpanzee Biomedical Research Program, NIH Animal Genetic Resource, and the Specific Pathogen Free Macaque Breeding and Research Program. Further information regarding these and other resources may be obtained through the NCRR Web site at www.ncrr.nih.gov/comparative_med.asp. MISCELLANEOUS RESOURCES NCRR - National Gene Vector Laboratories (NGVLs) The National Gene Vector Laboratories (NGVLs), with core funding from NCRR, serve as a resource for researchers to obtain adequate quantities of clinical-grade vectors for human gene transfer protocols. The vector types include retrovirus, lentivirus, adenovirus, adeno-associated virus, and herpes-virus. The NGVLs consist of three vector production centers at: Baylor College of Medicine; City of Hope National Medical Center and Beckman Research Institute; and Indiana University, which also serves as the Coordinating Center for all the laboratories. Two additional laboratories conduct toxicology studies for NGVL-approved investigators. These laboratories are located at the Southern Research Institute and the University of Florida. Additional information about the process for requesting vector production and/or pharmacology/toxicology support should be directed to Ms. Lorraine Rubin, NGVL Project Coordinator, Indiana University School of Medicine. Phone: (317) 274-4519; fax: (317) 278-4518; e-mail: lrubin@iupui.edu. The NGVL Coordinating Center at Indiana University also hosts a Web site: http://www.ngvl.org/. NCRR - General Clinical Research Centers (GCRCs) The General Clinical Research Centers (GCRCs) are a national network of 80 centers that provide optimal settings for medical investigators to conduct safe, controlled, state-of-the-art in-patient and out-patient studies of both children and adults. GCRCs also provide infrastructure and resources that support several career development opportunities. Investigators who have research project funding from the National Institutes of Health (NIH) and other peer-reviewed sources may apply to use GCRCs. Because the GCRCs support a full spectrum of patient-oriented scientific inquiry, researchers who use these centers can benefit from collaborative, multidisciplinary research opportunities. To request access to a GCRC facility, eligible investigators should initially contact a GCRC program director, listed in the National Center for Research Resources (NCRR) Clinical Research Resources Directory (www.ncrr.nih.gov/ncrrprog/clindir/crdirectory.asp). Further information can be obtained from Anthony R. Hayward, M.D., Director, Division of Clinical Research, National Center for Research Resources at NIH. Phone: (301) 435-0790; e-mail: haywarda@ncrr.nih.gov.

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Abstract:

Resources currently available to the scientific community that may be of interest for endocrinology research are described briefly here. More information is available through The Endocrine Society Home Page (http://www.endo-society.org) or the information provided below. HUMAN TISSUE AND BIOLOGIC SPECIMEN RESOURCES NCI - Cooperative Human Tissue Network (CHTN) The NCI Cooperative Human Tissue Network (CHTN) provides normal, benign, precancerous, and cancerous human tissue to the scientific community for biomedical research. Specimens are collected according to the investigator’s individual protocol. Information provided with the specimens includes routine histopathologic and demographic data. The CHTN can also provide a variety of tissue microarrays. Contact the CHTN Web site at http://www-chtn.ims.nci.nih.gov, or 1-866-GO2-CHTN (1-866-462-2486). NCI - Cooperative Breast Cancer Tissue Resource (CBCTR) The NCI Cooperative Breast Cancer Tissue Resource (CBCTR) can provide researchers with access to formalin-fixed, paraffin-embedded primary breast cancer specimens, with associated pathologic, clinical, and outcome data. All specimens are evaluated for pathologic diagnosis by CBCTR pathologists using standard diagnostic criteria. The collection is particularly well suited for validation studies of diagnostic and prognostic markers. The CBCTR also makes available breast cancer tissue microarrays designed by NCI statisticians to provide high statistical power for studies of stage-specific markers of breast cancer. Contact CBCTR’s Web site at http://cbctr.nci.nih.gov, or contact Steve Marroulis at Information Management Services, Inc.: telephone: (301) 680-9770; e-mail: marrouliss@imsweb.com NCI - Cooperative Prostate Cancer Tissue Resource (CPCTR) The NCI Cooperative Prostate Cancer Tissue Resource (CPCTR) can provide access to over 4,000 cases of formalin-fixed, paraffin-embedded primary prostate cancer specimens, with associated pathology and clinical data. Fresh-frozen tissue is also available with limited clinical follow-up information. In addition, slides from prostate cancer tissue microarrays with associated pathology and clinical data are now available. Contact the CPCTR Web site at http://www.prostatetissues.org, or contact Steve Marroulis at Information Management Services, Inc.: telephone: (301) 680-9770; e-mail: marrouliss@imsweb.com NCI - AIDS and Cancer Specimen Resource (ACSR) The AIDS and Cancer Specimen Resource (ACSR) provides qualified researchers with tissue, cell, blood, and fluid specimens, as well as clinical data from patients with AIDS and cancer. The specimens and clinical data are available for research studies, particularly those that translate basic research findings to clinical application. Contact the ACSR Web site (http://acsr.ucsf.edu/) or Dr. Kishor Bhatia, (301) 496-7147; e-mail: bhatiak@mail.nih.gov NCI - Breast and Ovarian Cancer Family Registries (CFRs) The Breast and Ovarian CFRs facilitate and support interdisciplinary and population-based research on the identification and characterization of breast and ovarian cancer susceptibility genes, with particular emphasis on gene-gene and gene-environment interaction research. Available from the registries are: a) family history, epidemiologic and clinical data, b) updates on cancer recurrence, morbidity and mortality in participating families, and c) biospecimens, including plasma, lymphocytes, serum, DNA, Guthrie cards or buccal smears, and paraffin blocks of tumor tissue. For further information on these registries, contact the CFR Web site (http://epi.grants.cancer.gov/BCFR) or (301) 496-9600. NCI - Specimen Resource Locator The NCI Specimen Resource Locator (http://cancer.gov/specimens) is a database that helps researchers locate specimens for research. The database includes resources such as tissue banks and tissue procurement systems with access to normal, benign, precancerous, and/or cancerous human tissue covering a wide variety of organ sites. Researchers specify the types of specimens, number of cases, preservation methods, and associated data they require. The Locator will search the database and return a list of tissue resources most likely to meet their requirements. When no match is obtained, the researcher is referred to the NCI Tissue Expediter [(301) 496-7147; e-mail: tissexp@mail.nih.gov]. The Tissue Expediter is a scientist who can help match researchers with appropriate resources or identify appropriate collaborators when those are necessary. NIDDK - Biologic Samples from Diabetic Study Foundation A portion (1/3) of all stored nonrenewable samples (plasma, serum, urine) from subjects enrolled in the Diabetes Control and Complications Trial (DCCT) is available for use by the scientific community to address questions for which these samples may be invaluable. Announcements for using this resource appear in the NIH Guide for Grants and Contracts periodically. Inquiries may be addressed to: Catherine C. Cowie, Ph.D., Director, Diabetes Epidemiology Program, NIDDK, 6707 Democracy Blvd., Room 691, MSC 5460, National Institute of Diabetes and Digestive and Kidney Diseases, Bethesda, MD 20892-5460. Phone: (301) 594-8804; fax: (301) 480-3503; e-mail: cowiec@extra.niddk.nih.gov NIDDK - NIDDK Central Repositories (Diabetes Prevention Study) The NIDDK Central Repositories have selected biosamples from the DPT-1 (The Diabetes Prevention Type 1) study that are available to qualified investigators through an application process. These samples are supplied for research purposes only, not for therapeutic, diagnostic, or commercial uses. Information about how to apply for these materials can be obtained from the NIDDK Central Repositories by contacting Ms. Helen Ray of RTI, 1-919-316-3418, or hmp@rti.org. Direct scientific-technical inquiry to the Project Officer of the NIDDK Central Repositories, Dr. Rebekah Rasooly, at phone: (301) 594-6007; e-mail: rr185i@nih.gov Visit the Repositories Web site at http://www.niddkrepository.org. NICHD - Brain and Tissue Bank for Developmental Disorders The purpose of the Bank is to collect, preserve, and distribute human tissues to investigators interested in autism and developmental disorders; normal tissues may be available for other research purposes. Further information can be obtained at www.btbank.org. The contact persons are H. Ron Zielke or Sally Wisniewsky, University of Maryland (1-800-847-1539), and Carol Petito or Stephanie Lojko, University of Miami (1-800-592-7246). NICHD - Reproductive Tissue Sample Repository (RTSaR) The Reproductive Tissue Sample Repository (RTSaR) is a virtual repository with online tissue sample acquisition capabilities. The RTSaR provides investigators with real-time access to human and nonhuman primate tissue and fluid inventories from four tissue bank facilities that are supported through the Specialized Cooperative Centers Program in Reproduction Research. The tissue banks are located at the University of California, San Diego (human ovary bank), Stanford University (human endometrium and DNA bank), Johns Hopkins University (male reproductive tissues and fluids), and the Oregon National Primate Research Center (nonhuman primate tissues). The web site for the RTSaR is https://rtsar.nichd.nih.gov/rtsar/login. If you wish to access the RTSaR, you can request an id and password to access the system by contacting the network administrator at RTSaR@mail.nih.gov Once you access the system, contact information for each bank is provided. Access is open to all investigators living in North America who are supported by research and research training grants from the NIH. One id and password will be provided to each principal investigator that can be utilized by any person working in the P.I.’s laboratory, or, in the case of institutional training grants (T32) and institutional career development award programs (K12), any person supported by the aforementioned awards. NCRR - Human Tissues and Organs Resource (HTOR) The Human Tissues and Organs Resource (HTOR) cooperative agreement supports a procurement network developed by the National Disease Research Interchange (NDRI), a not-for-profit organization. By collaborating with various medical centers, hospitals, pathology services, eye banks, tissue banks, and organ procurement organizations, HTOR provides a wide variety of human tissues and organs—both diseased and normal—to researchers for laboratory studies. Such samples include tissues from the central nervous system and brain, cardiovascular system, endocrine system, eyes, bone, and cartilage. For further information, consult the NDRI Web site (www.ndri.com) or contact Dr. John T. Lonsdale at NDRI, 8 Penn Center, 8th Floor, 1628 JFK Boulevard, Philadelphia, PA 19103. Phone: (800) 222-6374, ext. 271; fax: (215) 557-7154; e-mail: jlonsdale@ndriresource.org The NDRI Web site is http://www.ndri.com. NCRR - Islet Cell Resource (ICR) With support from NCRR, 10 Islet Cell Resource (ICR) centers isolate, purify, and characterize human pancreatic islets for subsequent transplantation into patients with type I diabetes. The ICR centers procure whole pancreata and acquire relevant data about donors; improve islet isolation and purification techniques; distribute islets for use in approved clinical protocols; and perfect the methods of storage and shipping. In this way, the centers optimize the viability, function, and availability of islets and help clinical researchers capitalize on the recently reported successes in islet transplantation. Information on submitting requests for islet cells can be obtained from Mr. John Kaddis, ICR Coordinating Center Project Manager, City of Hope National Medical Center, 1500 E. Duarte Road, Duarte, California 91010. Phone (626) 359-8111, ext. 63377; fax: (626) 471-7106; e-mail: jkaddis@coh.org The Coordinating Center hosts a Web site at http://icr.coh.org. NIA - SWAN Repository (longitudinal, multiethnic study of women at midlife including the menopausal transition) The SWAN Repository is a biologic specimen bank of the Study of Women’s Health Across the Nation (SWAN). The SWAN cohort was recruited in 1996/1997 and consists of 3302 African-American, Caucasian, Chinese, Hispanic, and Japanese women. The SWAN Repository contains more than 350,000 blood and urine specimens generated from the study participants’ annual visits (8 visits to date), at which time medical and health history, psychosocial measures, biological measures, and anthropometric data were and are being collected. In addition, a subset of the participants are providing urine samples, collected daily over the length of one menstrual cycle, each year. More than 900,000 of these samples are in the SWAN Repository and are available to researchers who wish to study the midlife and menopausal transition. Additionally, a DNA sample repository is also available and includes DNA as well as transformed B-lymphoblastoid cell lines from more than 1800 of the participants. To learn more about the SWAN Repository and how to apply to use SWAN Repository specimens, contact the Web site at http://www. swanrepository.com or Dr. MaryFran Sowers, University of Michigan, School of Public Health, Epidemiology Dept., (734) 936-3892; e-mail: mfsowers@umich.edu HUMAN AND ANIMAL CELL AND BIOLOGIC REAGENT RESOURCES NIDDK - National Hormone and Peptide Program The National Hormone and Peptide Program (NHPP) offers peptide hormones and their antisera, tissues (rat hypothalami), and miscellaneous reagents to qualified investigators. These reagents are supplied for research purposes only, not for therapeutic, diagnostic, or commercial uses. These materials can be obtained from Dr. A. F. Parlow of the Harbor-UCLA Medical Center, Research and Education Institute, Torrance, CA. A more complete description of resources within this program is provided in The Endocrine Society journals. Direct scientific-technical inquiry to NHPP Scientific Director, Dr. Al Parlow, at phone: (310) 222-3537; fax: (310) 222-3432; e-mail: parlow@humc.edu Visit the NHPP Web site at http://www.humc.edu/hormones. NICHD - National Hormone and Pituitary Program (see NIDDK listing) Following is a list of reagents currently available through the resources of NICHD: Androgen receptor and peptide antigen Recombinant monkey (cynomolgus) and baboon luteinizing hormone and follicle-stimulating hormone and antisera. NIA - Aging Cell Bank To facilitate aging research on cells in culture, the NIA provides support for the Aging Cell Bank located at the Coriell Institute for Medical Research in Camden, NJ. The Aged Cell Bank provides fibroblast, lymphoblastoid, and differentiated cell lines from a wide range of human age-related conditions and other mammalian species, as well as DNA from a limited subset of cell lines. For further information, the Aged Cell Bank catalog can be accessed at http://locus.umdnj.edu/nia or contact Dr. Donald Coppock at 1-800-752-3805. NCRR - Various Cell Repositories NCRR maintains the following cell repository resources: National Cell Culture Center, National Stem Cell Resource, and the Yeast Genetic Stock Center. Further information regarding these resources may be obtained through the NCRR Web site at: www.ncrr.nih.gov/ncrrprog/cmpdir/BIOLOG.asp. ANIMAL RESOURCES NIA - Aging Rodent Resources NIA maintains both rat and mouse colonies for use by the scientific community. The animals available range in age from 1 to 36 months. A repository of fresh-frozen tissue from the NIA aged rodent colonies is stocked with tissue from mouse and rat strains, including caloric-restricted BALB/c mice. The NIA also maintains a colony of calorically restricted rodents of selected genotypes, which are available to the scientific community. For further information, please refer to the Aged Rodent information handbook at http://www.nia.nih.gov/ResearchInformation/ScientificResources/AgedRodentColoniesHandbook/ or contact the Office of Biological Resources and Resource Development order desk. Phone: (301) 496-0181; fax: (301) 402-5597; e-mail: rodents@nia.nih.gov NIA - Aged Rodent Tissue Bank The rodent tissue bank contains flash-frozen tissues from rodents in the NIA aged rodent colonies. Tissue is collected from rodents at 4 or 5 age points throughout the lifespan. Tissue arrays are also available. Information is available at http://www.nia.nih.gov/ResearchInformation/ScientificResources/AgedRodentTissueBankHandbook/. NCRR - Mutant Mouse Regional Resource Centers (MMRRC) The Mutant Mouse Regional Resource Center (MMRRC) Program consists of centers that collectively operate as a one-stop shop to serve the biomedical research community. Investigators who have created select mutant mouse models may donate their models to an MMRRC for broad dissemination to other investigators who request them for noncommercial research investigations related to human health, disease, and treatments. The NCRR Division of Comparative Medicine (DCM) supports the MMRRCs, which are electronically linked through the MMRRC Informatics Coordinating Center (ICC) to function as one facility. The ICC, located at The Jackson Laboratory in Bar Harbor, ME, provides database and other informatics support to the MMRRC to give the research community a single entry point to the program. Further information can be obtained from the Web site at http://www.mmrrc.org, or from Franziska Grieder, D.V.M., Ph.D., Division of Comparative Medicine, NCRR. Phone (301) 435-0744; fax: (301) 480-3819; e-mail: griederf@ncrr.nih.gov NCRR - Induced Mutant Mouse Resource (IMR) The Induced Mutant Mouse Resource (IMR) at The Jackson Laboratory provides researchers with genetically engineered mice (transgenic, targeted mutant, retroviral insertional mutant, and chemically induced mutant mice). The function of the IMR is to select, import, cryopreserve, maintain, and distribute these important strains of mice to the research community. To improve their value for research, the IMR also undertakes genetic development of stocks, such as transferring mutant genes or transgenes to defined genetic backgrounds and combining transgenes and/or targeted mutations to create new mouse models for research. Over 800 mutant stocks have been accepted by the IMR. Current holdings include models for research on cancer, immunological and inflammatory diseases, neurological diseases and behavioral disorders, cardiovascular diseases, developmental disorders, metabolic and other diseases, reporter (e.g. GFP) and recombinase (e.g. cre/loxP) strains. About 8 strains a month are being added to the IMR holdings. A list of all strains may be obtained from the IMR Web site: www.jax.org/resources/documents/imr/. Online submission forms are also available on that site. All mice can be ordered by calling The Jackson Laboratory’s Customer Service Department at 1-800-422-MICE or (207) 288-5845 or by faxing (207) 288-6150. NIDDK - Mouse Metabolic Phenotyping Centers The mission of the Mouse Metabolic Phenotyping Centers is to provide the scientific community with standardized, high-quality metabolic and physiologic phenotyping services for mouse models of diabetes, diabetic complications, obesity, and related disorders. Researchers can ship mice to one of the four Centers (University of Cincinnati, University of Texas Southwestern Medical Center, Vanderbilt University, and Yale University) and obtain on a fee-for-service basis a range of complex exams used to characterize mouse metabolism, blood composition, energy balance, eating and exercise, organ function and morphology, physiology, and histology. Many tests are done in living animals and are designed to elucidate the subtle hallmarks of metabolic disease. Information, including a complete list of available tests, can be found at www.mmpc.org, or contact Dr. Maren R. Laughlin, NIDDK, at (301) 594-8802; e-mail: Maren.Laughlin@nih.gov; or Dr. Kristin Abraham, NIDDK, at (301) 451-8048; e-mail: abrahamk@extra.niddk.nih.gov NCRR - National Primate Research Centers (NPRCs) National Primate Research Centers (NPRCs) are a network of eight highly specialized facilities for nonhuman primates (NHP) research. Funded by grants through NCRR’s Division of Comparative Medicine (DCM), each center, staffed with experienced research and support staff, provides the appropriate research environment to foster the development of NHP models of human health and disease for biomedical investigations. The NPRCs are affiliated with academic institutions and are accessible to eligible biomedical and behavioral investigators supported by research project grants from the National Institutes of Health and other sources. Further information may be obtained from the notice, Procedures for Accessing Regional Primate Research Centers, published in the NIH Guide for Grants and Contracts at http://grants2.nih.gov/grants/guide/notice-files/not97-014.html, or from John Harding, Ph.D., National Primate Research Centers and AIDS Animal Models Program, Division of Comparative Medicine, NCRR. Phone: (301) 435-0744; fax: (301) 480-3819; e-mail: hardingj@mail.nih.gov NIA - Nonhuman Primates, Aging Set-Aside Colony NIA maintains approximately 200 nonhuman primates (M. mulatta) at four National Primate Research Centers (see above) for conducting research on aging. These animals range in age from 18 to 35 years. While these animals are predominantly reserved for non-invasive research, exceptions can be made to this policy. For further information, please contact Dr. Nancy Nadon, Office of Biological Resources and Resource Development, NIA. Phone: (301) 402-7744; fax: (301) 402-0010; e-mail: nadonn@nia.nih.gov NIA - Nonhuman Primate (NHP) Tissue Bank and Aging Database The NIA developed two new resources to facilitate research in the NHP model. The NHP tissue bank contains fresh-frozen and fixed tissue donated by primate centers around the country. Information is available at http://www.nia.nih.gov/ResearchInformation/ScientificResources/NHPTissueBankHandbook.htm. The Primate Aging Database provides an internet accessible database with data from thousands of primates around the country. It can be used to investigate the effect of age on a variety of parameters, predominantly blood chemistry and husbandry measurements. The site is password protected. The URL is http://ipad.primate.wisc.edu. NIA - Obesity, Diabetes and Aging Animal Resource (USF-ODARC) The NIA supports a colony of aged rhesus macaques, many of which are obese and/or diabetic. This is a long-term colony of monkeys housed at the University of South Florida’s Obesity, Diabetes and Aging Research Center. They have been extensively and longitudinally characterized for general health variables, blood chemistry, food intake, and body weight. Diabetic monkeys are tested daily for urine glucose and ketone levels, and prediabetic monkeys are tested weekly. Data for some of the monkeys extend as far back as 15 years. This unique resource is available for collaborative studies. ODARC has a significant amount of stored tissue collected at necropsy and stored blood/plasma collected longitudinally. Serial blood collection or tissue collection at necropsy can also be performed prospectively. Testing and imaging can also be performed on the monkeys. Inquiries regarding collaborative studies using the ODARC colony should be directed to: Barbara C. Hansen, Ph.D., Director, Obesity, Diabetes and Aging Research Center, University of South Florida, All Children’s Hospital, 801 6th Street South #9340, St. Petersburg, FL 33701. Phone: (727) 767-6993; fax: (727) 767-7443; e-mail: bchansen@aol.com NCRR - Various Animal Resources NCRR maintains the following animal resources: Animal Models and Genetic Stocks, Chimpanzee Biomedical Research Program, NIH Animal Genetic Resource, and the Specific Pathogen Free Macaque Breeding and Research Program. Further information regarding these and other resources may be obtained through the NCRR Web site at www.ncrr.nih.gov/comparative_med.asp. MISCELLANEOUS RESOURCES NCRR - National Gene Vector Laboratories (NGVLs) The National Gene Vector Laboratories (NGVLs), with core funding from NCRR, serve as a resource for researchers to obtain adequate quantities of clinical-grade vectors for human gene transfer protocols. The vector types include retrovirus, lentivirus, adenovirus, adeno-associated virus, herpes-virus, and DNA plasmids. The NGVLs consist of three vector production centers at: Baylor College of Medicine; City of Hope National Medical Center and Beckman Research Institute; and Indiana University, which also serves as the Coordinating Center for all the laboratories. Two additional laboratories conduct toxicology studies for NGVL-approved investigators. These laboratories are located at the Southern Research Institute and the University of Florida. Additional information about the process for requesting vector production and/or pharmacology/toxicology support should be directed to Ms. Lorraine Matheson, NGVL Project Coordinator, Indiana University School of Medicine. Phone: (317) 274-4519; fax: (317) 278-4518; e-mail: lrubin@iupui.edu The NGVL Coordinating Center at Indiana University also hosts a Web site at http://www.ngvl.org. NCRR - General Clinical Research Centers (GCRCs) The General Clinical Research Centers (GCRCs) are a national network of 82 centers that provide optimal settings for medical investigators to conduct safe, controlled, state-of-the-art in-patient and out-patient studies of both children and adults. GCRCs also provide infrastructure and resources that support several career development opportunities. Investigators who have research project funding from the National Institutes of Health (NIH) and other peer-reviewed sources may apply to use GCRCs. Because the GCRCs support a full spectrum of patient-oriented scientific inquiry, researchers who use these centers can benefit from collaborative, multidisciplinary research opportunities. To request access to a GCRC facility, eligible investigators should initially contact a GCRC program director, listed in the National Center for Research Resources (NCRR) Clinical Research Resources Directory (www.ncrr.nih.gov/ncrrprog/clindir/crdirectory.asp). Further information can be obtained from Anthony R. Hayward, M.D., Director, Division for Clinical Research Resources, National Center for Research Resources at NIH. Phone: (301) 435-0790; e-mail: haywarda@ncrr.nih.gov

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Abstract Resources currently available to the scientific community that may be of interest for endocrinology research are described briefly here. More information is available through The Endocrine Society Home Page (http://www.endo-society.org) or the information provided below. HUMAN TISSUE AND BIOLOGIC SPECIMEN RESOURCES NCI - Cooperative Human Tissue Network (CHTN) The NCI Cooperative Human Tissue Network (CHTN) provides normal, benign, precancerous, and cancerous human tissue to the scientific community for biomedical research. Specimens are collected according to the investigator’s individual protocol. Information provided with the specimens includes routine histopathologic and demographic data. The CHTN can also provide a variety of tissue microarrays. Contact the CHTN Web site at http://www-chtn.ims.nci.nih.gov, or 1-866-GO2-CHTN (1-866-462-2486). NCI - Cooperative Breast Cancer Tissue Resource (CBCTR) The NCI Cooperative Breast Cancer Tissue Resource (CBCTR) can provide researchers with access to formalin-fixed, paraffin-embedded primary breast cancer specimens, with associated pathologic, clinical, and outcome data. All specimens are evaluated for pathologic diagnosis by CBCTR pathologists using standard diagnostic criteria. The collection is particularly well suited for validation studies of diagnostic and prognostic markers. The CBCTR also makes available breast cancer tissue microarrays designed by NCI statisticians to provide high statistical power for studies of stage-specific markers of breast cancer. Contact CBCTR’s Web site at http://cbctr.nci.nih.gov, or contact Steve Marroulis at Information Management Services, Inc.: telephone: (301) 680-9770; e-mail: marrouliss@imsweb.com. NCI - Cooperative Prostate Cancer Tissue Resource (CPCTR) The NCI Cooperative Prostate Cancer Tissue Resource (CPCTR) can provide access to over 4,000 cases of formalin-fixed, paraffin-embedded primary prostate cancer specimens, with associated pathology and clinical data. Fresh-frozen tissue is also available with limited clinical follow-up information. In addition, slides from prostate cancer tissue microarrays with associated pathology and clinical data are now available. Contact the CPCTR Web site at http://www.prostatetissues.org, or contact Steve Marroulis at Information Management Services, Inc.: telephone: (301) 680-9770; e-mail: marrouliss@imsweb.com. NCI - AIDS and Cancer Specimen Resource (ACSR) The AIDS and Cancer Specimen Resource (ACSR) provides qualified researchers with tissue, cell, blood, and fluid specimens, as well as clinical data from patients with AIDS and cancer. The specimens and clinical data are available for research studies, particularly those that translate basic research findings to clinical application. Contact the ACSR Web site (http://acsr.ucsf.edu/) or Dr. Kishor Bhatia, (301) 496-7147; e-mail: bhatiak@mail.nih.gov. NCI - Breast and Ovarian Cancer Family Registries (CFRs) The Breast and Ovarian CFRs facilitate and support interdisciplinary and population-based research on the identification and characterization of breast and ovarian cancer susceptibility genes, with particular emphasis on gene-gene and gene-environment interaction research. Available from the registries are: a) family history, epidemiologic and clinical data, b) updates on cancer recurrence, morbidity and mortality in participating families, and c) biospecimens, including plasma, lymphocytes, serum, DNA, Guthrie cards or buccal smears, and paraffin blocks of tumor tissue. For further information on these registries, contact the CFR Web site (http://epi.grants.cancer.gov/BCFR) or (301) 496-9600. NCI - Specimen Resource Locator The NCI Specimen Resource Locator (http://cancer.gov/specimens) is a database that helps researchers locate specimens for research. The database includes resources such as tissue banks and tissue procurement systems with access to normal, benign, precancerous, and/or cancerous human tissue covering a wide variety of organ sites. Researchers specify the types of specimens, number of cases, preservation methods, and associated data they require. The Locator will search the database and return a list of tissue resources most likely to meet their requirements. When no match is obtained, the researcher is referred to the NCI Tissue Expediter [(301) 496-7147; e-mail: tissexp@mail.nih.gov]. The Tissue Expediter is a scientist who can help match researchers with appropriate resources or identify appropriate collaborators when those are necessary. NIDDK - Biologic Samples from Diabetic Study Foundation A portion (1/3) of all stored nonrenewable samples (plasma, serum, urine) from subjects enrolled in the Diabetes Control and Complications Trial (DCCT) is available for use by the scientific community to address questions for which these samples may be invaluable. Announcements for using this resource appear in the NIH Guide for Grants and Contracts periodically. Inquiries may be addressed to: Catherine C. Cowie, Ph.D., Director, Diabetes Epidemiology Program, NIDDK, 6707 Democracy Blvd., Room 691, MSC 5460, National Institute of Diabetes and Digestive and Kidney Diseases, Bethesda, MD 20892-5460. Phone: (301) 594-8804; fax: (301) 480-3503; e-mail: cowiec@extra.niddk.nih.gov. NIDDK - NIDDK Central Repositories (Diabetes Prevention Study) The NIDDK Central Repositories have selected biosamples from the DPT-1 (The Diabetes Prevention Type 1) study that are available to qualified investigators through an application process. These samples are supplied for research purposes only, not for therapeutic, diagnostic, or commercial uses. Information about how to apply for these materials can be obtained from the NIDDK Central Repositories by contacting Ms. Helen Ray of RTI, 1-919-316-3418, or hmp@rti.org. Direct scientific-technical inquiry to the Project Officer of the NIDDK Central Repositories, Dr. Rebekah Rasooly, at phone: (301) 594-6007; e-mail: rr185i@nih.gov. Visit the Repositories Web site at http://www.niddkrepository.org. NICHD - Brain and Tissue Bank for Developmental Disorders The purpose of the Bank is to collect, preserve, and distribute human tissues to investigators interested in autism and developmental disorders; normal tissues may be available for other research purposes. Further information can be obtained at www.btbank.org. The contact persons are H. Ron Zielke or Sally Wisniewsky, University of Maryland (1-800-847-1539), and Carol Petito or Stephanie Lojko, University of Miami (1-800-592-7246). NICHD - Reproductive Tissue Sample Repository (RTSaR) The Reproductive Tissue Sample Repository (RTSaR) is a virtual repository with online tissue sample acquisition capabilities. The RTSaR provides investigators with real-time access to human and nonhuman primate tissue and fluid inventories from four tissue bank facilities that are supported through the Specialized Cooperative Centers Program in Reproduction Research. The tissue banks are located at the University of California, San Diego (human ovary bank), Stanford University (human endometrium and DNA bank), Johns Hopkins University (male reproductive tissues and fluids), and the Oregon National Primate Research Center (nonhuman primate tissues). The web site for the RTSaR is https://rtsar.nichd.nih.gov/rtsar/login. If you wish to access the RTSaR, you can request an id and password to access the system by contacting the network administrator at RTSaR@mail.nih.gov. Once you access the system, contact information for each bank is provided. Access is open to all investigators living in North America who are supported by research and research training grants from the NIH. One id and password will be provided to each principal investigator that can be utilized by any person working in the P.I.’s laboratory, or, in the case of institutional training grants (T32) and institutional career development award programs (K12), any person supported by the aforementioned awards. NCRR - Human Tissues and Organs Resource (HTOR) The Human Tissues and Organs Resource (HTOR) cooperative agreement supports a procurement network developed by the National Disease Research Interchange (NDRI), a not-for-profit organization. By collaborating with various medical centers, hospitals, pathology services, eye banks, tissue banks, and organ procurement organizations, HTOR provides a wide variety of human tissues and organs—both diseased and normal—to researchers for laboratory studies. Such samples include tissues from the central nervous system and brain, cardiovascular system, endocrine system, eyes, bone, and cartilage. For further information, consult the NDRI Web site (www.ndri.com) or contact Dr. John T. Lonsdale at NDRI, 8 Penn Center, 8th Floor, 1628 JFK Boulevard, Philadelphia, PA 19103. Phone: (800) 222-6374, ext. 271; fax: (215) 557-7154; e-mail: jlonsdale@ndriresource.org. The NDRI Web site is http://www.ndri.com. NCRR - Islet Cell Resource (ICR) With support from NCRR, 10 Islet Cell Resource (ICR) centers isolate, purify, and characterize human pancreatic islets for subsequent transplantation into patients with type I diabetes. The ICR centers procure whole pancreata and acquire relevant data about donors; improve islet isolation and purification techniques; distribute islets for use in approved clinical protocols; and perfect the methods of storage and shipping. In this way, the centers optimize the viability, function, and availability of islets and help clinical researchers capitalize on the recently reported successes in islet transplantation. Information on submitting requests for islet cells can be obtained from Mr. John Kaddis, ICR Coordinating Center Project Manager, City of Hope National Medical Center, 1500 E. Duarte Road, Duarte, California 91010. Phone (626) 359-8111, ext. 63377; fax: (626) 471-7106; e-mail: jkaddis@coh.org. The Coordinating Center hosts a Web site at http://icr.coh.org. NIA - SWAN Repository (longitudinal, multiethnic study of women at midlife including the menopausal transition) The SWAN Repository is a biologic specimen bank of the Study of Women’s Health Across the Nation (SWAN). The SWAN cohort was recruited in 1996/1997 and consists of 3302 African-American, Caucasian, Chinese, Hispanic, and Japanese women. The SWAN Repository contains more than 350,000 blood and urine specimens generated from the study participants’ annual visits (8 visits to date), at which time medical and health history, psychosocial measures, biological measures, and anthropometric data were and are being collected. In addition, a subset of the participants are providing urine samples, collected daily over the length of one menstrual cycle, each year. More than 900,000 of these samples are in the SWAN Repository and are available to researchers who wish to study the midlife and menopausal transition. Additionally, a DNA sample repository is also available and includes DNA as well as transformed B-lymphoblastoid cell lines from more than 1800 of the participants. To learn more about the SWAN Repository and how to apply to use SWAN Repository specimens, contact the Web site at http://www.swanrepository.com or Dr. MaryFran Sowers, University of Michigan, School of Public Health, Epidemiology Dept., (734) 936-3892; e-mail: mfsowers@umich.edu. HUMAN AND ANIMAL CELL AND BIOLOGIC REAGENT RESOURCES NIDDK - National Hormone and Peptide Program The National Hormone and Peptide Program (NHPP) offers peptide hormones and their antisera, tissues (rat hypothalami), and miscellaneous reagents to qualified investigators. These reagents are supplied for research purposes only, not for therapeutic, diagnostic, or commercial uses. These materials can be obtained from Dr. A. F. Parlow of the Harbor-UCLA Medical Center, Research and Education Institute, Torrance, CA. A more complete description of resources within this program is provided in The Endocrine Society journals. Direct scientific-technical inquiry to NHPP Scientific Director, Dr. Al Parlow, at phone: (310) 222-3537; fax: (310) 222-3432; e-mail: parlow@humc.edu. Visit the NHPP Web site at http://www.humc.edu/hormones. NICHD - National Hormone and Pituitary Program (see NIDDK listing) Following is a list of reagents currently available through the resources of NICHD: Androgen receptor and peptide antigen Recombinant monkey (cynomolgus) and baboon luteinizing hormone and follicle-stimulating hormone and antisera. NIA - Aging Cell Bank To facilitate aging research on cells in culture, the NIA provides support for the Aging Cell Bank located at the Coriell Institute for Medical Research in Camden, NJ. The Aged Cell Bank provides fibroblast, lymphoblastoid, and differentiated cell lines from a wide range of human age-related conditions and other mammalian species, as well as DNA from a limited subset of cell lines. For further information, the Aged Cell Bank catalog can be accessed at http://locus.umdnj.edu/nia or contact Dr. Donald Coppock at 1-800-752-3805. NCRR - Various Cell Repositories NCRR maintains the following cell repository resources: National Cell Culture Center, National Stem Cell Resource, and the Yeast Genetic Stock Center. Further information regarding these resources may be obtained through the NCRR Web site at: www.ncrr.nih.gov/ncrrprog/cmpdir/BIOLOG.asp. ANIMAL RESOURCES NIA - Aging Rodent Resources NIA maintains both rat and mouse colonies for use by the scientific community. The animals available range in age from 1 to 36 months. A repository of fresh-frozen tissue from the NIA aged rodent colonies is stocked with tissue from mouse and rat strains, including caloric-restricted BALB/c mice. The NIA also maintains a colony of calorically restricted rodents of selected genotypes, which are available to the scientific community. For further information, please refer to the Aged Rodent information handbook at http://www.nia.nih.gov/ResearchInformation/ScientificResources/AgedRodentColoniesHandbook/ or contact the Office of Biological Resources and Resource Development order desk. Phone: (301) 496-0181; fax: (301) 402-5597; e-mail: rodents@nia.nih.gov. NIA - Aged Rodent Tissue Bank The rodent tissue bank contains flash-frozen tissues from rodents in the NIA aged rodent colonies. Tissue is collected from rodents at 4 or 5 age points throughout the lifespan. Tissue arrays are also available. Information is available at http://www.nia.nih.gov/ResearchInformation/ScientificResources/AgedRodentTissueBankHandbook/. NCRR - Mutant Mouse Regional Resource Centers (MMRRC) The Mutant Mouse Regional Resource Center (MMRRC) Program consists of centers that collectively operate as a one-stop shop to serve the biomedical research community. Investigators who have created select mutant mouse models may donate their models to an MMRRC for broad dissemination to other investigators who request them for noncommercial research investigations related to human health, disease, and treatments. The NCRR Division of Comparative Medicine (DCM) supports the MMRRCs, which are electronically linked through the MMRRC Informatics Coordinating Center (ICC) to function as one facility. The ICC, located at The Jackson Laboratory in Bar Harbor, ME, provides database and other informatics support to the MMRRC to give the research community a single entry point to the program. Further information can be obtained from the Web site at http://www.mmrrc.org, or from Franziska Grieder, D.V.M., Ph.D., Division of Comparative Medicine, NCRR. Phone (301) 435-0744; fax: (301) 480-3819; e-mail: griederf@ncrr.nih.gov. NCRR - Induced Mutant Mouse Resource (IMR) The Induced Mutant Mouse Resource (IMR) at The Jackson Laboratory provides researchers with genetically engineered mice (transgenic, targeted mutant, retroviral insertional mutant, and chemically induced mutant mice). The function of the IMR is to select, import, cryopreserve, maintain, and distribute these important strains of mice to the research community. To improve their value for research, the IMR also undertakes genetic development of stocks, such as transferring mutant genes or transgenes to defined genetic backgrounds and combining transgenes and/or targeted mutations to create new mouse models for research. Over 800 mutant stocks have been accepted by the IMR. Current holdings include models for research on cancer, immunological and inflammatory diseases, neurological diseases and behavioral disorders, cardiovascular diseases, developmental disorders, metabolic and other diseases, reporter (e.g. GFP) and recombinase (e.g. cre/loxP) strains. About 8 strains a month are being added to the IMR holdings. A list of all strains may be obtained from the IMR Web site: www.jax.org/resources/documents/imr/. Online submission forms are also available on that site. All mice can be ordered by calling The Jackson Laboratory’s Customer Service Department at 1-800-422-MICE or (207) 288-5845 or by faxing (207) 288-6150. NIDDK - Mouse Metabolic Phenotyping Centers The mission of the Mouse Metabolic Phenotyping Centers is to provide the scientific community with standardized, high-quality metabolic and physiologic phenotyping services for mouse models of diabetes, diabetic complications, obesity, and related disorders. Researchers can ship mice to one of the four Centers (University of Cincinnati, University of Texas Southwestern Medical Center, Vanderbilt University, and Yale University) and obtain on a fee-for-service basis a range of complex exams used to characterize mouse metabolism, blood composition, energy balance, eating and exercise, organ function and morphology, physiology, and histology. Many tests are done in living animals and are designed to elucidate the subtle hallmarks of metabolic disease. Information, including a complete list of available tests, can be found at www.mmpc.org, or contact Dr. Maren R. Laughlin, NIDDK, at (301) 594-8802; e-mail: Maren.Laughlin@nih.gov; or Dr. Kristin Abraham, NIDDK, at (301) 451-8048; e-mail: abrahamk@extra.niddk.nih.gov. NCRR - National Primate Research Centers (NPRCs) National Primate Research Centers (NPRCs) are a network of eight highly specialized facilities for nonhuman primates (NHP) research. Funded by grants through NCRR’s Division of Comparative Medicine (DCM), each center, staffed with experienced research and support staff, provides the appropriate research environment to foster the development of NHP models of human health and disease for biomedical investigations. The NPRCs are affiliated with academic institutions and are accessible to eligible biomedical and behavioral investigators supported by research project grants from the National Institutes of Health and other sources. Further information may be obtained from the notice, Procedures for Accessing Regional Primate Research Centers, published in the NIH Guide for Grants and Contracts at http://grants2.nih.gov/grants/guide/notice-files/not97-014.html, or from John Harding, Ph.D., National Primate Research Centers and AIDS Animal Models Program, Division of Comparative Medicine, NCRR. Phone: (301) 435-0744; fax: (301) 480-3819; e-mail: hardingj@mail.nih.gov. NIA - Nonhuman Primates, Aging Set-Aside Colony NIA maintains approximately 200 nonhuman primates (M. mulatta) at four National Primate Research Centers (see above) for conducting research on aging. These animals range in age from 18 to 35 years. While these animals are predominantly reserved for non-invasive research, exceptions can be made to this policy. For further information, please contact Dr. Nancy Nadon, Office of Biological Resources and Resource Development, NIA. Phone: (301) 402-7744; fax: (301) 402-0010; e-mail: nadonn@nia.nih.gov. NIA - Nonhuman Primate (NHP) Tissue Bank and Aging Database The NIA developed two new resources to facilitate research in the NHP model. The NHP tissue bank contains fresh-frozen and fixed tissue donated by primate centers around the country. Information is available at http://www.nia.nih.gov/ResearchInformation/ScientificResources/NHPTissueBankHandbook.htm. The Primate Aging Database provides an internet accessible database with data from thousands of primates around the country. It can be used to investigate the effect of age on a variety of parameters, predominantly blood chemistry and husbandry measurements. The site is password protected. The URL is http://ipad.primate.wisc.edu. NIA - Obesity, Diabetes and Aging Animal Resource (USF-ODARC) The NIA supports a colony of aged rhesus macaques, many of which are obese and/or diabetic. This is a long-term colony of monkeys housed at the University of South Florida’s Obesity, Diabetes and Aging Research Center. They have been extensively and longitudinally characterized for general health variables, blood chemistry, food intake, and body weight. Diabetic monkeys are tested daily for urine glucose and ketone levels, and prediabetic monkeys are tested weekly. Data for some of the monkeys extend as far back as 15 years. This unique resource is available for collaborative studies. ODARC has a significant amount of stored tissue collected at necropsy and stored blood/plasma collected longitudinally. Serial blood collection or tissue collection at necropsy can also be performed prospectively. Testing and imaging can also be performed on the monkeys. Inquiries regarding collaborative studies using the ODARC colony should be directed to: Barbara C. Hansen, Ph.D., Director, Obesity, Diabetes and Aging Research Center, University of South Florida, All Children’s Hospital, 801 6th Street South #9340, St. Petersburg, FL 33701. Phone: (727) 767-6993; fax: (727) 767-7443; e-mail: bchansen@aol.com. NCRR - Various Animal Resources NCRR maintains the following animal resources: Animal Models and Genetic Stocks, Chimpanzee Biomedical Research Program, NIH Animal Genetic Resource, and the Specific Pathogen Free Macaque Breeding and Research Program. Further information regarding these and other resources may be obtained through the NCRR Web site at www.ncrr.nih.gov/comparative_med.asp. MISCELLANEOUS RESOURCES NCRR - National Gene Vector Laboratories (NGVLs) The National Gene Vector Laboratories (NGVLs), with core funding from NCRR, serve as a resource for researchers to obtain adequate quantities of clinical-grade vectors for human gene transfer protocols. The vector types include retrovirus, lentivirus, adenovirus, adeno-associated virus, herpes-virus, and DNA plasmids. The NGVLs consist of three vector production centers at: Baylor College of Medicine; City of Hope National Medical Center and Beckman Research Institute; and Indiana University, which also serves as the Coordinating Center for all the laboratories. Two additional laboratories conduct toxicology studies for NGVL-approved investigators. These laboratories are located at the Southern Research Institute and the University of Florida. Additional information about the process for requesting vector production and/or pharmacology/toxicology support should be directed to Ms. Lorraine Matheson, NGVL Project Coordinator, Indiana University School of Medicine. Phone: (317) 274-4519; fax: (317) 278-4518; e-mail: lrubin@iupui.edu. The NGVL Coordinating Center at Indiana University also hosts a Web site at http://www.ngvl.org. NCRR - General Clinical Research Centers (GCRCs) The General Clinical Research Centers (GCRCs) are a national network of 82 centers that provide optimal settings for medical investigators to conduct safe, controlled, state-of-the-art in-patient and out-patient studies of both children and adults. GCRCs also provide infrastructure and resources that support several career development opportunities. Investigators who have research project funding from the National Institutes of Health (NIH) and other peer-reviewed sources may apply to use GCRCs. Because the GCRCs support a full spectrum of patient-oriented scientific inquiry, researchers who use these centers can benefit from collaborative, multidisciplinary research opportunities. To request access to a GCRC facility, eligible investigators should initially contact a GCRC program director, listed in the National Center for Research Resources (NCRR) Clinical Research Resources Directory (www.ncrr.nih.gov/ncrrprog/clindir/crdirectory.asp). Further information can be obtained from Anthony R. Hayward, M.D., Director, Division for Clinical Research Resources, National Center for Research Resources at NIH. Phone: (301) 435-0790; e-mail: haywarda@ncrr.nih.gov.

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Abstract:

Resources currently available to the scientific community that may be of interest for endocrinology research are described briefly here. More information is available through The Endocrine Society Home Page (http://www.endo-society.org) or the information provided below. Human Tissue and Biologic Specimen Resources NCI - Cooperative Human Tissue Network (CHTN) The NCI Cooperative Human Tissue Network (CHTN) provides normal, benign, precancerous, and cancerous human tissue to the scientific community for biomedical research. Specimens are collected according to the investigator’s individual protocol. Information provided with the specimens includes routine histopathologic and demographic data. The CHTN can also provide a variety of tissue microarrays. Contact the CHTN Web site at http://www-chtn.ims.nci.nih.gov, or 1-866-GO2-CHTN (1-866-462-2486). NCI - Cooperative Breast Cancer Tissue Resource (CBCTR) The NCI Cooperative Breast Cancer Tissue Resource (CBCTR) can provide researchers with access to formalin-fixed, paraffin-embedded primary breast cancer specimens, with associated pathologic, clinical, and outcome data. All specimens are evaluated for pathologic diagnosis by CBCTR pathologists using standard diagnostic criteria. The collection is particularly well suited for validation studies of diagnostic and prognostic markers. The CBCTR also makes available breast cancer tissue microarrays designed by NCI statisticians to provide high statistical power for studies of stage-specific markers of breast cancer. Contact CBCTR’s Web site at http://cbctr.nci.nih.gov, or contact Steve Marroulis at Information Management Services, Inc.: telephone: (301) 680-9770; e-mail: marrouliss@imsweb.com. NCI - Cooperative Prostate Cancer Tissue Resource (CPCTR) The NCI Cooperative Prostate Cancer Tissue Resource (CPCTR) can provide access to over 4,000 cases of formalin-fixed, paraffin-embedded primary prostate cancer specimens, with associated pathology and clinical data. Fresh-frozen tissue is also available with limited clinical follow-up information. In addition, slides from prostate cancer tissue microarrays with associated pathology and clinical data are now available. Contact the CPCTR Web site at http://www.prostatetissues.org, or contact Steve Marroulis at Information Management Services, Inc.: telephone: (301) 680-9770; e-mail: marrouliss@imsweb.com. NCI - AIDS and Cancer Specimen Resource (ACSR) The AIDS and Cancer Specimen Resource (ACSR) provides qualified researchers with tissue, cell, blood, and fluid specimens, as well as clinical data from patients with AIDS and cancer. The specimens and clinical data are available for research studies, particularly those that translate basic research findings to clinical application. Contact the ACSR Web site (http://acsr.ucsf.edu/) or Dr. Kishor Bhatia, (301) 496-7147; e-mail: bhatiak@mail.nih.gov. NCI - Breast and Ovarian Cancer Family Registries (CFRs) The Breast and Ovarian CFRs facilitate and support interdisciplinary and population-based research on the identification and characterization of breast and ovarian cancer susceptibility genes, with particular emphasis on gene-gene and gene-environment interaction research. Available from the registries are: a) family history, epidemiologic and clinical data, b) updates on cancer recurrence, morbidity and mortality in participating families, and c) biospecimens, including plasma, lymphocytes, serum, DNA, Guthrie cards or buccal smears, and paraffin blocks of tumor tissue. For further information on these registries, contact the CFR Web site (http://epi.grants.cancer.gov/BCFR) or (301) 496-9600. NCI - Specimen Resource Locator The NCI Specimen Resource Locator (http://cancer.gov/specimens) is a database that helps researchers locate specimens for research. The database includes resources such as tissue banks and tissue procurement systems with access to normal, benign, precancerous, and/or cancerous human tissue covering a wide variety of organ sites. Researchers specify the types of specimens, number of cases, preservation methods, and associated data they require. The Locator will search the database and return a list of tissue resources most likely to meet their requirements. When no match is obtained, the researcher is referred to the NCI Tissue Expediter [(301) 496-7147; e-mail: tissexp@mail.nih.gov]. The Tissue Expediter is a scientist who can help match researchers with appropriate resources or identify appropriate collaborators when those are necessary. NIDDK - Biologic Samples from Diabetic Study Foundation A portion (1/3) of all stored nonrenewable samples (plasma, serum, urine) from subjects enrolled in the Diabetes Control and Complications Trial (DCCT) is available for use by the scientific community to address questions for which these samples may be invaluable. Announcements for using this resource appear in the NIH Guide for Grants and Contracts periodically. Inquiries may be addressed to: Catherine C. Cowie, Ph.D., Director, Diabetes Epidemiology Program, NIDDK, 6707 Democracy Blvd., Room 691, MSC 5460, National Institute of Diabetes and Digestive and Kidney Diseases, Bethesda, MD 20892-5460. Phone: (301) 594-8804; fax: (301) 480-3503; e-mail: cowiec@extra.niddk.nih.gov. NIDDK - NIDDK Central Repositories (Diabetes Prevention Study) The NIDDK Central Repositories have selected biosamples from the DPT-1 (The Diabetes Prevention Type 1) study that are available to qualified investigators through an application process. These samples are supplied for research purposes only, not for therapeutic, diagnostic, or commercial uses. Information about how to apply for these materials can be obtained from the NIDDK Central Repositories by contacting Ms. Helen Ray of RTI, 1-919-316-3418, or hmp@rti.org. Direct scientific-technical inquiry to the Project Officer of the NIDDK Central Repositories, Dr. Rebekah Rasooly, at phone: (301) 594-6007; e-mail: rr185i@nih.gov. Visit the Repositories Web site at http://www.niddkrepository.org. NICHD - Brain and Tissue Bank for Developmental Disorders The purpose of the Bank is to collect, preserve, and distribute human tissues to investigators interested in autism and developmental disorders; normal tissues may be available for other research purposes. Further information can be obtained at www.btbank.org. The contact persons are H. Ron Zielke or Sally Wisniewsky, University of Maryland (1-800-847-1539), and Carol Petito or Stephanie Lojko, University of Miami (1-800-592-7246). NICHD - Reproductive Tissue Sample Repository (RTSaR) The Reproductive Tissue Sample Repository (RTSaR) is a virtual repository with online tissue sample acquisition capabilities. The RTSaR provides investigators with real-time access to human and nonhuman primate tissue and fluid inventories from four tissue bank facilities that are supported through the Specialized Cooperative Centers Program in Reproduction Research. The tissue banks are located at the University of California, San Diego (human ovary bank), Stanford University (human endometrium and DNA bank), Johns Hopkins University (male reproductive tissues and fluids), and the Oregon National Primate Research Center (nonhuman primate tissues). The web site for the RTSaR is https://rtsar.nichd.nih.gov/rtsar/login. If you wish to access the RTSaR, you can request an id and password to access the system by contacting the network administrator at RTSaR@mail.nih.gov. Once you access the system, contact information for each bank is provided. Access is open to all investigators living in North America who are supported by research and research training grants from the NIH. One id and password will be provided to each principal investigator that can be utilized by any person working in the P.I.’s laboratory, or, in the case of institutional training grants (T32) and institutional career development award programs (K12), any person supported by the aforementioned awards. NCRR - Human Tissues and Organs Resource (HTOR) The Human Tissues and Organs Resource (HTOR) cooperative agreement supports a procurement network developed by the National Disease Research Interchange (NDRI), a not-for-profit organization. By collaborating with various medical centers, hospitals, pathology services, eye banks, tissue banks, and organ procurement organizations, HTOR provides a wide variety of human tissues and organs—both diseased and normal—to researchers for laboratory studies. Such samples include tissues from the central nervous system and brain, cardiovascular system, endocrine system, eyes, bone, and cartilage. For further information, consult the NDRI Web site (www.ndri.com) or contact Dr. John T. Lonsdale at NDRI, 8 Penn Center, 8th Floor, 1628 JFK Boulevard, Philadelphia, PA 19103. Phone: (800) 222-6374, ext. 271; fax: (215) 557-7154; e-mail: jlonsdale@ndriresource.org. The NDRI Web site is http://www.ndri.com. NCRR - Islet Cell Resource (ICR) With support from NCRR, 10 Islet Cell Resource (ICR) centers isolate, purify, and characterize human pancreatic islets for subsequent transplantation into patients with type I diabetes. The ICR centers procure whole pancreata and acquire relevant data about donors; improve islet isolation and purification techniques; distribute islets for use in approved clinical protocols; and perfect the methods of storage and shipping. In this way, the centers optimize the viability, function, and availability of islets and help clinical researchers capitalize on the recently reported successes in islet transplantation. Information on submitting requests for islet cells can be obtained from Mr. John Kaddis, ICR Coordinating Center Project Manager, City of Hope National Medical Center, 1500 E. Duarte Road, Duarte, California 91010. Phone (626) 359-8111, ext. 63377; fax: (626) 471-7106; e-mail: jkaddis@coh.org. The Coordinating Center hosts a Web site at http://icr.coh.org. NIA - SWAN Repository (longitudinal, multiethnic study of women at midlife including the menopausal transition) The SWAN Repository is a biologic specimen bank of the Study of Women’s Health Across the Nation (SWAN). The SWAN cohort was recruited in 1996/1997 and consists of 3302 African-American, Caucasian, Chinese, Hispanic, and Japanese women. The SWAN Repository contains more than 350,000 blood and urine specimens generated from the study participants’ annual visits (8 visits to date), at which time medical and health history, psychosocial measures, biological measures, and anthropometric data were and are being collected. In addition, a subset of the participants are providing urine samples, collected daily over the length of one menstrual cycle, each year. More than 900,000 of these samples are in the SWAN Repository and are available to researchers who wish to study the midlife and menopausal transition. Additionally, a DNA sample repository is also available and includes DNA as well as transformed B-lymphoblastoid cell lines from more than 1800 of the participants. To learn more about the SWAN Repository and how to apply to use SWAN Repository specimens, contact the Web site at http://www. swanrepository.com or Dr. MaryFran Sowers, University of Michigan, School of Public Health, Epidemiology Dept., (734) 936-3892; e-mail: mfsowers@umich.edu. Human and Animal Cell and Biologic Reagent Resources NIDDK - National Hormone and Peptide Program The National Hormone and Peptide Program (NHPP) offers peptide hormones and their antisera, tissues (rat hypothalami), and miscellaneous reagents to qualified investigators. These reagents are supplied for research purposes only, not for therapeutic, diagnostic, or commercial uses. These materials can be obtained from Dr. A. F. Parlow of the Harbor-UCLA Medical Center, Research and Education Institute, Torrance, CA. A more complete description of resources within this program is provided in The Endocrine Society journals. Direct scientific-technical inquiry to NHPP Scientific Director, Dr. Al Parlow, at phone: (310) 222-3537; fax: (310) 222-3432; e-mail: parlow@humc.edu. Visit the NHPP Web site at http://www.humc.edu/hormones. NICHD - National Hormone and Pituitary Program (see NIDDK listing) Following is a list of reagents currently available through the resources of NICHD: Androgen receptor and peptide antigen Recombinant monkey (cynomolgus) and baboon luteinizing hormone and follicle-stimulating hormone and antisera. NIA - Aging Cell Bank To facilitate aging research on cells in culture, the NIA provides support for the Aging Cell Bank located at the Coriell Institute for Medical Research in Camden, NJ. The Aged Cell Bank provides fibroblast, lymphoblastoid, and differentiated cell lines from a wide range of human age-related conditions and other mammalian species, as well as DNA from a limited subset of cell lines. For further information, the Aged Cell Bank catalog can be accessed at http://locus.umdnj.edu/nia or contact Dr. Donald Coppock at 1-800-752-3805. NCRR - Various Cell Repositories NCRR maintains the following cell repository resources: National Cell Culture Center, National Stem Cell Resource, and the Yeast Genetic Stock Center. Further information regarding these resources may be obtained through the NCRR Web site at: www.ncrr.nih.gov/ncrrprog/cmpdir/BIOLOG.asp. Animal Resources NIA - Aging Rodent Resources NIA maintains both rat and mouse colonies for use by the scientific community. The animals available range in age from 1 to 36 months. A repository of fresh-frozen tissue from the NIA aged rodent colonies is stocked with tissue from mouse and rat strains, including caloric-restricted BALB/c mice. The NIA also maintains a colony of calorically restricted rodents of selected genotypes, which are available to the scientific community. For further information, please refer to the Aged Rodent information handbook at http://www.nia.nih.gov/ResearchInformation/ScientificResources/AgedRodentColoniesHandbook/ or contact the Office of Biological Resources and Resource Development order desk. Phone: (301) 496-0181; fax: (301) 402-5597; e-mail: rodents@nia.nih.gov. NIA - Aged Rodent Tissue Bank The rodent tissue bank contains flash-frozen tissues from rodents in the NIA aged rodent colonies. Tissue is collected from rodents at 4 or 5 age points throughout the lifespan. Tissue arrays are also available. Information is available at http://www.nia.nih.gov/ResearchInformation/ScientificResources/AgedRodentTissueBankHandbook/. NCRR - Mutant Mouse Regional Resource Centers (MMRRC) The Mutant Mouse Regional Resource Center (MMRRC) Program consists of centers that collectively operate as a one-stop shop to serve the biomedical research community. Investigators who have created select mutant mouse models may donate their models to an MMRRC for broad dissemination to other investigators who request them for noncommercial research investigations related to human health, disease, and treatments. The NCRR Division of Comparative Medicine (DCM) supports the MMRRCs, which are electronically linked through the MMRRC Informatics Coordinating Center (ICC) to function as one facility. The ICC, located at The Jackson Laboratory in Bar Harbor, ME, provides database and other informatics support to the MMRRC to give the research community a single entry point to the program. Further information can be obtained from the Web site at http://www.mmrrc.org, or from Franziska Grieder, D.V.M., Ph.D., Division of Comparative Medicine, NCRR. Phone (301) 435-0744; fax: (301) 480-3819; e-mail: griederf@ncrr.nih.gov. NCRR - Induced Mutant Mouse Resource (IMR) The Induced Mutant Mouse Resource (IMR) at The Jackson Laboratory provides researchers with genetically engineered mice (transgenic, targeted mutant, retroviral insertional mutant, and chemically induced mutant mice). The function of the IMR is to select, import, cryopreserve, maintain, and distribute these important strains of mice to the research community. To improve their value for research, the IMR also undertakes genetic development of stocks, such as transferring mutant genes or transgenes to defined genetic backgrounds and combining transgenes and/or targeted mutations to create new mouse models for research. Over 800 mutant stocks have been accepted by the IMR. Current holdings include models for research on cancer, immunological and inflammatory diseases, neurological diseases and behavioral disorders, cardiovascular diseases, developmental disorders, metabolic and other diseases, reporter (e.g. GFP) and recombinase (e.g. cre/loxP) strains. About 8 strains a month are being added to the IMR holdings. A list of all strains may be obtained from the IMR Web site: www.jax.org/resources/documents/imr/. Online submission forms are also available on that site. All mice can be ordered by calling The Jackson Laboratory’s Customer Service Department at 1-800-422-MICE or (207) 288-5845 or by faxing (207) 288-6150. NIDDK - Mouse Metabolic Phenotyping Centers The mission of the Mouse Metabolic Phenotyping Centers is to provide the scientific community with standardized, high-quality metabolic and physiologic phenotyping services for mouse models of diabetes, diabetic complications, obesity, and related disorders. Researchers can ship mice to one of the four Centers (University of Cincinnati, University of Texas Southwestern Medical Center, Vanderbilt University, and Yale University) and obtain on a fee-for-service basis a range of complex exams used to characterize mouse metabolism, blood composition, energy balance, eating and exercise, organ function and morphology, physiology, and histology. Many tests are done in living animals and are designed to elucidate the subtle hallmarks of metabolic disease. Information, including a complete list of available tests, can be found at www.mmpc.org, or contact Dr. Maren R. Laughlin, NIDDK, at (301) 594-8802; e-mail: Maren.Laughlin@nih.gov; or Dr. Kristin Abraham, NIDDK, at (301) 451-8048; e-mail: abrahamk@extra.niddk.nih.gov. NCRR - National Primate Research Centers (NPRCs) National Primate Research Centers (NPRCs) are a network of eight highly specialized facilities for nonhuman primates (NHP) research. Funded by grants through NCRR’s Division of Comparative Medicine (DCM), each center, staffed with experienced research and support staff, provides the appropriate research environment to foster the development of NHP models of human health and disease for biomedical investigations. The NPRCs are affiliated with academic institutions and are accessible to eligible biomedical and behavioral investigators supported by research project grants from the National Institutes of Health and other sources. Further information may be obtained from the notice, Procedures for Accessing Regional Primate Research Centers, published in the NIH Guide for Grants and Contracts at http://grants2.nih.gov/grants/guide/notice-files/not97-014.html, or from John Harding, Ph.D., National Primate Research Centers and AIDS Animal Models Program, Division of Comparative Medicine, NCRR. Phone: (301) 435-0744; fax: (301) 480-3819; e-mail: hardingj@mail.nih.gov. NIA - Nonhuman Primates, Aging Set-Aside Colony NIA maintains approximately 200 nonhuman primates (M. mulatta) at four National Primate Research Centers (see above) for conducting research on aging. These animals range in age from 18 to 35 years. While these animals are predominantly reserved for non-invasive research, exceptions can be made to this policy. For further information, please contact Dr. Nancy Nadon, Office of Biological Resources and Resource Development, NIA. Phone: (301) 402-7744; fax: (301) 402-0010; e-mail: nadonn@nia.nih.gov. NIA - Nonhuman Primate (NHP) Tissue Bank and Aging Database The NIA developed two new resources to facilitate research in the NHP model. The NHP tissue bank contains fresh-frozen and fixed tissue donated by primate centers around the country. Information is available at http://www.nia.nih.gov/ResearchInformation/ScientificResources/NHPTissueBankHandbook.htm.The Primate Aging Database provides an internet accessible database with data from thousands of primates around the country. It can be used to investigate the effect of age on a variety of parameters, predominantly blood chemistry and husbandry measurements. The site is password protected. The URL is http://ipad.primate.wisc.edu. NIA - Obesity, Diabetes and Aging Animal Resource (USF-ODARC) The NIA supports a colony of aged rhesus macaques, many of which are obese and/or diabetic. This is a long-term colony of monkeys housed at the University of South Florida’s Obesity, Diabetes and Aging Research Center. They have been extensively and longitudinally characterized for general health variables, blood chemistry, food intake, and body weight. Diabetic monkeys are tested daily for urine glucose and ketone levels, and prediabetic monkeys are tested weekly. Data for some of the monkeys extend as far back as 15 years. This unique resource is available for collaborative studies. ODARC has a significant amount of stored tissue collected at necropsy and stored blood/plasma collected longitudinally. Serial blood collection or tissue collection at necropsy can also be performed prospectively. Testing and imaging can also be performed on the monkeys. Inquiries regarding collaborative studies using the ODARC colony should be directed to: Barbara C. Hansen, Ph.D., Director, Obesity, Diabetes and Aging Research Center, University of South Florida, All Children’s Hospital, 801 6th Street South #9340, St. Petersburg, FL 33701. Phone: (727) 767-6993; fax: (727) 767-7443; e-mail: bchansen@aol.com. NCRR - Various Animal Resources NCRR maintains the following animal resources: Animal Models and Genetic Stocks, Chimpanzee Biomedical Research Program, NIH Animal Genetic Resource, and the Specific Pathogen Free Macaque Breeding and Research Program. Further information regarding these and other resources may be obtained through the NCRR Web site at www.ncrr.nih.gov/comparative_med.asp. Miscellaneous Resources NCRR - National Gene Vector Laboratories (NGVLs) The National Gene Vector Laboratories (NGVLs), with core funding from NCRR, serve as a resource for researchers to obtain adequate quantities of clinical-grade vectors for human gene transfer protocols. The vector types include retrovirus, lentivirus, adenovirus, adeno-associated virus, herpes-virus, and DNA plasmids. The NGVLs consist of three vector production centers at: Baylor College of Medicine; City of Hope National Medical Center and Beckman Research Institute; and Indiana University, which also serves as the Coordinating Center for all the laboratories. Two additional laboratories conduct toxicology studies for NGVL-approved investigators. These laboratories are located at the Southern Research Institute and the University of Florida. Additional information about the process for requesting vector production and/or pharmacology/toxicology support should be directed to Ms. Lorraine Matheson, NGVL Project Coordinator, Indiana University School of Medicine. Phone: (317) 274-4519; fax: (317) 278-4518; e-mail: lrubin@iupui.edu. The NGVL Coordinating Center at Indiana University also hosts a Web site at http://www.ngvl.org. NCRR - General Clinical Research Centers (GCRCs) The General Clinical Research Centers (GCRCs) are a national network of 82 centers that provide optimal settings for medical investigators to conduct safe, controlled, state-of-the-art in-patient and out-patient studies of both children and adults. GCRCs also provide infrastructure and resources that support several career development opportunities. Investigators who have research project funding from the National Institutes of Health (NIH) and other peer-reviewed sources may apply to use GCRCs. Because the GCRCs support a full spectrum of patient-oriented scientific inquiry, researchers who use these centers can benefit from collaborative, multidisciplinary research opportunities. To request access to a GCRC facility, eligible investigators should initially contact a GCRC program director, listed in the National Center for Research Resources (NCRR) Clinical Research Resources Directory (www.ncrr.nih.gov/ncrrprog/clindir/crdirectory.asp). Further information can be obtained from Anthony R. Hayward, M.D., Director, Division for Clinical Research Resources, National Center for Research Resources at NIH. Phone: (301) 435-0790; e-mail: haywarda@ncrr.nih.gov.

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Resources currently available to the scientific community that may be of interest for endocrinology research are described briefly here. More information is available through The Endocrine Society Home Page (http://www.endo-society.org) or the information provided below. Human Tissue and Biologic Specimen Resources NCI - Cooperative Human Tissue Network (CHTN) The NCI Cooperative Human Tissue Network (CHTN) provides normal, benign, precancerous, and cancerous human tissue to the scientific community for biomedical research. Specimens are collected according to the investigator’s individual protocol. Information provided with the specimens includes routine histopathologic and demographic data. The CHTN can also provide a variety of tissue microarrays. Contact the CHTN Web site at http://www-chtn.ims.nci.nih.gov, or 1-866-GO2-CHTN (1-866-462-2486). NCI - Cooperative Breast Cancer Tissue Resource (CBCTR) The NCI Cooperative Breast Cancer Tissue Resource (CBCTR) can provide researchers with access to formalin-fixed, paraffin-embedded primary breast cancer specimens, with associated pathologic, clinical, and outcome data. All specimens are evaluated for pathologic diagnosis by CBCTR pathologists using standard diagnostic criteria. The collection is particularly well suited for validation studies of diagnostic and prognostic markers. The CBCTR also makes available breast cancer tissue microarrays designed by NCI statisticians to provide high statistical power for studies of stage-specific markers of breast cancer. Contact CBCTR’s Web site at http://cbctr.nci.nih.gov, or contact Steve Marroulis at Information Management Services, Inc.: telephone: (301) 680-9770;marrouliss@imsweb.com. NCI - Cooperative Prostate Cancer Tissue Resource (CPCTR) The NCI Cooperative Prostate Cancer Tissue Resource (CPCTR) can provide access to over 4,000 cases of formalin-fixed, paraffin-embedded primary prostate cancer specimens, with associated pathology and clinical data. Fresh-frozen tissue is also available with limited clinical follow-up information. In addition, slides from prostate cancer tissue microarrays with associated pathology and clinical data are now available. Contact the CPCTR Web site at http://www.prostatetissues.org, or contact Steve Marroulis at Information Management Services, Inc.: telephone: (301) 680-9770;marrouliss@imsweb.com. NCI - AIDS and Cancer Specimen Resource (ACSR) The AIDS and Cancer Specimen Resource (ACSR) provides qualified researchers with tissue, cell, blood, and fluid specimens, as well as clinical data from patients with AIDS and cancer. The specimens and clinical data are available for research studies, particularly those that translate basic research findings to clinical application. Contact the ACSR Web site (http://acsr.ucsf.edu/) or Dr. Kishor Bhatia, (301) 496-7147;bhatiak@mail.nih.gov. NCI - Breast and Ovarian Cancer Family Registries (CFRs) The Breast and Ovarian CFRs facilitate and support interdisciplinary and population-based research on the identification and characterization of breast and ovarian cancer susceptibility genes, with particular emphasis on gene-gene and gene-environment interaction research. Available from the registries are: a) family history, epidemiologic and clinical data, b) updates on cancer recurrence, morbidity and mortality in participating families, and c) biospecimens, including plasma, lymphocytes, serum, DNA, Guthrie cards or buccal smears, and paraffin blocks of tumor tissue. For further information on these registries, contact the CFR Web site (http://epi.grants.cancer.gov/BCFR) or (301) 496-9600. NCI - Specimen Resource Locator The NCI Specimen Resource Locator (http://cancer.gov/specimens) is a database that helps researchers locate specimens for research. The database includes resources such as tissue banks and tissue procurement systems with access to normal, benign, precancerous, and/or cancerous human tissue covering a wide variety of organ sites. Researchers specify the types of specimens, number of cases, preservation methods, and associated data they require. The Locator will search the database and return a list of tissue resources most likely to meet their requirements. When no match is obtained, the researcher is referred to the NCI Tissue Expediter [(301) 496-7147;tissexp@mail.nih.gov]. The Tissue Expediter is a scientist who can help match researchers with appropriate resources or identify appropriate collaborators when those are necessary. NIDDK - Biologic Samples from Diabetic Study Foundation A portion (1/3) of all stored nonrenewable samples (plasma, serum, urine) from subjects enrolled in the Diabetes Control and Complications Trial (DCCT) is available for use by the scientific community to address questions for which these samples may be invaluable. Announcements for using this resource appear in the NIH Guide for Grants and Contracts periodically. Inquiries may be addressed to: Catherine C. Cowie, Ph.D., Director, Diabetes Epidemiology Program, NIDDK, 6707 Democracy Blvd., Room 691, MSC 5460, National Institute of Diabetes and Digestive and Kidney Diseases, Bethesda, MD 20892-5460. Phone: (301) 594-8804; fax: (301) 480-3503;cowiec@extra.niddk.nih.gov. NIDDK - NIDDK Central Repositories (Diabetes Prevention Study) The NIDDK Central Repositories have selected biosamples from the DPT-1 (The Diabetes Prevention Type 1) study that are available to qualified investigators through an application process. These samples are supplied for research purposes only, not for therapeutic, diagnostic, or commercial uses. Information about how to apply for these materials can be obtained from the NIDDK Central Repositories by contacting Ms. Helen Ray of RTI, 1-919-316-3418, or hmp@rti.org. Direct scientific-technical inquiry to the Project Officer of the NIDDK Central Repositories, Dr. Rebekah Rasooly, at phone: (301) 594-6007;rr185i@nih.gov. Visit the Repositories Web site at http://www.niddkrepository.org. NICHD - Brain and Tissue Bank for Developmental Disorders The purpose of the Bank is to collect, preserve, and distribute human tissues to investigators interested in autism and developmental disorders; normal tissues may be available for other research purposes. Further information can be obtained at www.btbank.org. The contact persons are H. Ron Zielke or Sally Wisniewsky, University of Maryland (1-800-847-1539), and Carol Petito or Stephanie Lojko, University of Miami (1-800-592-7246). NICHD - Reproductive Tissue Sample Repository (RTSaR) The Reproductive Tissue Sample Repository (RTSaR) is a virtual repository with online tissue sample acquisition capabilities. The RTSaR provides investigators with real-time access to human and nonhuman primate tissue and fluid inventories from four tissue bank facilities that are supported through the Specialized Cooperative Centers Program in Reproduction Research. The tissue banks are located at the University of California, San Diego (human ovary bank), Stanford University (human endometrium and DNA bank), Johns Hopkins University (male reproductive tissues and fluids), and the Oregon National Primate Research Center (nonhuman primate tissues). The web site for the RTSaR is https://rtsar.nichd.nih.gov/rtsar/login. If you wish to access the RTSaR, you can request an id and password to access the system by contacting the network administrator at RTSaR@mail.nih.gov. Once you access the system, contact information for each bank is provided. Access is open to all investigators living in North America who are supported by research and research training grants from the NIH. One id and password will be provided to each principal investigator that can be utilized by any person working in the P.I.’s laboratory, or, in the case of institutional training grants (T32) and institutional career development award programs (K12), any person supported by the aforementioned awards. NCRR - Human Tissues and Organs Resource (HTOR) The Human Tissues and Organs Resource (HTOR) cooperative agreement supports a procurement network developed by the National Disease Research Interchange (NDRI), a not-for-profit organization. By collaborating with various medical centers, hospitals, pathology services, eye banks, tissue banks, and organ procurement organizations, HTOR provides a wide variety of human tissues and organs—both diseased and normal—to researchers for laboratory studies. Such samples include tissues from the central nervous system and brain, cardiovascular system, endocrine system, eyes, bone, and cartilage. For further information, consult the NDRI Web site (www.ndri.com) or contact Dr. John T. Lonsdale at NDRI, 8 Penn Center, 8th Floor, 1628 JFK Boulevard, Philadelphia, PA 19103. Phone: (800) 222-6374, ext. 271; fax: (215) 557-7154;jlonsdale@ndriresource.org. The NDRI Web site is http://www.ndri.com. NCRR - Islet Cell Resource (ICR) With support from NCRR, 10 Islet Cell Resource (ICR) centers isolate, purify, and characterize human pancreatic islets for subsequent transplantation into patients with type I diabetes. The ICR centers procure whole pancreata and acquire relevant data about donors; improve islet isolation and purification techniques; distribute islets for use in approved clinical protocols; and perfect the methods of storage and shipping. In this way, the centers optimize the viability, function, and availability of islets and help clinical researchers capitalize on the recently reported successes in islet transplantation. Information on submitting requests for islet cells can be obtained from Mr. John Kaddis, ICR Coordinating Center Project Manager, City of Hope National Medical Center, 1500 E. Duarte Road, Duarte, California 91010. Phone (626) 359-8111, ext. 63377; fax: (626) 471-7106;jkaddis@coh.org. The Coordinating Center hosts a Web site at http://icr.coh.org. NIA - SWAN Repository (longitudinal, multiethnic study of women at midlife including the menopausal transition) The SWAN Repository is a biologic specimen bank of the Study of Women’s Health Across the Nation (SWAN). The SWAN cohort was recruited in 1996/1997 and consists of 3302 African-American, Caucasian, Chinese, Hispanic, and Japanese women. The SWAN Repository contains more than 350,000 blood and urine specimens generated from the study participants’ annual visits (8 visits to date), at which time medical and health history, psychosocial measures, biological measures, and anthropometric data were and are being collected. In addition, a subset of the participants are providing urine samples, collected daily over the length of one menstrual cycle, each year. More than 900,000 of these samples are in the SWAN Repository and are available to researchers who wish to study the midlife and menopausal transition. Additionally, a DNA sample repository is also available and includes DNA as well as transformed B-lymphoblastoid cell lines from more than 1800 of the participants. To learn more about the SWAN Repository and how to apply to use SWAN Repository specimens, contact the Web site at http://www. swanrepository.com or Dr. MaryFran Sowers, University of Michigan, School of Public Health, Epidemiology Dept., (734) 936-3892;mfsowers@umich.edu. Human and Animal Cell and Biologic Reagent Resources NIDDK - National Hormone and Peptide Program The National Hormone and Peptide Program (NHPP) offers peptide hormones and their antisera, tissues (rat hypothalami), and miscellaneous reagents to qualified investigators. These reagents are supplied for research purposes only, not for therapeutic, diagnostic, or commercial uses. These materials can be obtained from Dr. A. F. Parlow of the Harbor-UCLA Medical Center, Research and Education Institute, Torrance, CA. A more complete description of resources within this program is provided in The Endocrine Society journals. Direct scientific-technical inquiry to NHPP Scientific Director, Dr. Al Parlow, at phone: (310) 222-3537; fax: (310) 222-3432;parlow@humc.edu. Visit the NHPP Web site at http://www.humc.edu/hormones. NICHD - National Hormone and Pituitary Program (see NIDDK listing) Following is a list of reagents currently available through the resources of NICHD: Androgen receptor and peptide antigen Recombinant monkey (cynomolgus) and baboon luteinizing hormone and follicle-stimulating hormone and antisera. NIA - Aging Cell Bank To facilitate aging research on cells in culture, the NIA provides support for the Aging Cell Bank located at the Coriell Institute for Medical Research in Camden, NJ. The Aged Cell Bank provides fibroblast, lymphoblastoid, and differentiated cell lines from a wide range of human age-related conditions and other mammalian species, as well as DNA from a limited subset of cell lines. For further information, the Aged Cell Bank catalog can be accessed at http://locus.umdnj.edu/nia or contact Dr. Donald Coppock at 1-800-752-3805. NCRR - Various Cell Repositories NCRR maintains the following cell repository resources: National Cell Culture Center, National Stem Cell Resource, and the Yeast Genetic Stock Center. Further information regarding these resources may be obtained through the NCRR Web site at: www.ncrr.nih.gov/ncrrprog/cmpdir/BIOLOG.asp. Animal Resources NIA - Aging Rodent Resources NIA maintains both rat and mouse colonies for use by the scientific community. The animals available range in age from 1 to 36 months. A repository of fresh-frozen tissue from the NIA aged rodent colonies is stocked with tissue from mouse and rat strains, including caloric-restricted BALB/c mice. The NIA also maintains a colony of calorically restricted rodents of selected genotypes, which are available to the scientific community. For further information, please refer to the Aged Rodent information handbook at http://www.nia.nih.gov/ResearchInformation/ScientificResources/AgedRodentColoniesHandbook/ or contact the Office of Biological Resources and Resource Development order desk. Phone: (301) 496-0181; fax: (301) 402-5597;rodents@nia.nih.gov. NIA - Aged Rodent Tissue Bank The rodent tissue bank contains flash-frozen tissues from rodents in the NIA aged rodent colonies. Tissue is collected from rodents at 4 or 5 age points throughout the lifespan. Tissue arrays are also available. Information is available at http://www.nia.nih.gov/ResearchInformation/ScientificResources/AgedRodentTissueBankHandbook/. NCRR - Mutant Mouse Regional Resource Centers (MMRRC) The Mutant Mouse Regional Resource Center (MMRRC) Program consists of centers that collectively operate as a one-stop shop to serve the biomedical research community. Investigators who have created select mutant mouse models may donate their models to an MMRRC for broad dissemination to other investigators who request them for noncommercial research investigations related to human health, disease, and treatments. The NCRR Division of Comparative Medicine (DCM) supports the MMRRCs, which are electronically linked through the MMRRC Informatics Coordinating Center (ICC) to function as one facility. The ICC, located at The Jackson Laboratory in Bar Harbor, ME, provides database and other informatics support to the MMRRC to give the research community a single entry point to the program. Further information can be obtained from the Web site at http://www.mmrrc.org, or from Franziska Grieder, D.V.M., Ph.D., Division of Comparative Medicine, NCRR. Phone (301) 435-0744; fax: (301) 480-3819;griederf@ncrr.nih.gov. NCRR - Induced Mutant Mouse Resource (IMR) The Induced Mutant Mouse Resource (IMR) at The Jackson Laboratory provides researchers with genetically engineered mice (transgenic, targeted mutant, retroviral insertional mutant, and chemically induced mutant mice). The function of the IMR is to select, import, cryopreserve, maintain, and distribute these important strains of mice to the research community. To improve their value for research, the IMR also undertakes genetic development of stocks, such as transferring mutant genes or transgenes to defined genetic backgrounds and combining transgenes and/or targeted mutations to create new mouse models for research. Over 800 mutant stocks have been accepted by the IMR. Current holdings include models for research on cancer, immunological and inflammatory diseases, neurological diseases and behavioral disorders, cardiovascular diseases, developmental disorders, metabolic and other diseases, reporter (e.g. GFP) and recombinase (e.g. cre/loxP) strains. About 8 strains a month are being added to the IMR holdings. A list of all strains may be obtained from the IMR Web site: www.jax.org/resources/documents/imr/. Online submission forms are also available on that site. All mice can be ordered by calling The Jackson Laboratory’s Customer Service Department at 1-800-422-MICE or (207) 288-5845 or by faxing (207) 288-6150. NIDDK - Mouse Metabolic Phenotyping Centers The mission of the Mouse Metabolic Phenotyping Centers is to provide the scientific community with standardized, high-quality metabolic and physiologic phenotyping services for mouse models of diabetes, diabetic complications, obesity, and related disorders. Researchers can ship mice to one of the four Centers (University of Cincinnati, University of Texas Southwestern Medical Center, Vanderbilt University, and Yale University) and obtain on a fee-for-service basis a range of complex exams used to characterize mouse metabolism, blood composition, energy balance, eating and exercise, organ function and morphology, physiology, and histology. Many tests are done in living animals and are designed to elucidate the subtle hallmarks of metabolic disease. Information, including a complete list of available tests, can be found at www.mmpc.org, or contact Dr. Maren R. Laughlin, NIDDK, at (301) 594-8802;Maren.Laughlin@nih.gov; or Dr. Kristin Abraham, NIDDK, at (301) 451-8048;abrahamk@extra.niddk.nih.gov. NCRR - National Primate Research Centers (NPRCs) National Primate Research Centers (NPRCs) are a network of eight highly specialized facilities for nonhuman primates (NHP) research. Funded by grants through NCRR’s Division of Comparative Medicine (DCM), each center, staffed with experienced research and support staff, provides the appropriate research environment to foster the development of NHP models of human health and disease for biomedical investigations. The NPRCs are affiliated with academic institutions and are accessible to eligible biomedical and behavioral investigators supported by research project grants from the National Institutes of Health and other sources. Further information may be obtained from the notice, Procedures for Accessing Regional Primate Research Centers, published in the NIH Guide for Grants and Contracts at http://grants2.nih.gov/grants/guide/notice-files/not97-014.html, or from John Harding, Ph.D., National Primate Research Centers and AIDS Animal Models Program, Division of Comparative Medicine, NCRR. Phone: (301) 435-0744; fax: (301) 480-3819;hardingj@mail.nih.gov. NIA - Nonhuman Primates, Aging Set-Aside Colony NIA maintains approximately 200 nonhuman primates (M. mulatta) at four National Primate Research Centers (see above) for conducting research on aging. These animals range in age from 18 to 35 years. While these animals are predominantly reserved for non-invasive research, exceptions can be made to this policy. For further information, please contact Dr. Nancy Nadon, Office of Biological Resources and Resource Development, NIA. Phone: (301) 402-7744; fax: (301) 402-0010;nadonn@nia.nih.gov. NIA - Nonhuman Primate (NHP) Tissue Bank and Aging Database The NIA developed two new resources to facilitate research in the NHP model. The NHP tissue bank contains fresh-frozen and fixed tissue donated by primate centers around the country. Information is available at http://www.nia.nih.gov/ResearchInformation/ScientificResources/NHPTissueBankHandbook.htm.The Primate Aging Database provides an internet accessible database with data from thousands of primates around the country. It can be used to investigate the effect of age on a variety of parameters, predominantly blood chemistry and husbandry measurements. The site is password protected. The URL is http://ipad.primate.wisc.edu. NIA - Obesity, Diabetes and Aging Animal Resource (USF-ODARC) The NIA supports a colony of aged rhesus macaques, many of which are obese and/or diabetic. This is a long-term colony of monkeys housed at the University of South Florida’s Obesity, Diabetes and Aging Research Center. They have been extensively and longitudinally characterized for general health variables, blood chemistry, food intake, and body weight. Diabetic monkeys are tested daily for urine glucose and ketone levels, and prediabetic monkeys are tested weekly. Data for some of the monkeys extend as far back as 15 years. This unique resource is available for collaborative studies. ODARC has a significant amount of stored tissue collected at necropsy and stored blood/plasma collected longitudinally. Serial blood collection or tissue collection at necropsy can also be performed prospectively. Testing and imaging can also be performed on the monkeys. Inquiries regarding collaborative studies using the ODARC colony should be directed to: Barbara C. Hansen, Ph.D., Director, Obesity, Diabetes and Aging Research Center, University of South Florida, All Children’s Hospital, 801 6th Street South #9340, St. Petersburg, FL 33701. Phone: (727) 767-6993; fax: (727) 767-7443;bchansen@aol.com. NCRR - Various Animal Resources NCRR maintains the following animal resources: Animal Models and Genetic Stocks, Chimpanzee Biomedical Research Program, NIH Animal Genetic Resource, and the Specific Pathogen Free Macaque Breeding and Research Program. Further information regarding these and other resources may be obtained through the NCRR Web site at www.ncrr.nih.gov/comparative_med.asp. Miscellaneous Resources NCRR - National Gene Vector Laboratories (NGVLs) The National Gene Vector Laboratories (NGVLs), with core funding from NCRR, serve as a resource for researchers to obtain adequate quantities of clinical-grade vectors for human gene transfer protocols. The vector types include retrovirus, lentivirus, adenovirus, adeno-associated virus, herpes-virus, and DNA plasmids. The NGVLs consist of three vector production centers at: Baylor College of Medicine; City of Hope National Medical Center and Beckman Research Institute; and Indiana University, which also serves as the Coordinating Center for all the laboratories. Two additional laboratories conduct toxicology studies for NGVL-approved investigators. These laboratories are located at the Southern Research Institute and the University of Florida. Additional information about the process for requesting vector production and/or pharmacology/toxicology support should be directed to Ms. Lorraine Matheson, NGVL Project Coordinator, Indiana University School of Medicine. Phone: (317) 274-4519; fax: (317) 278-4518;lrubin@iupui.edu. The NGVL Coordinating Center at Indiana University also hosts a Web site at http://www.ngvl.org. NCRR - General Clinical Research Centers (GCRCs) The General Clinical Research Centers (GCRCs) are a national network of 82 centers that provide optimal settings for medical investigators to conduct safe, controlled, state-of-the-art in-patient and out-patient studies of both children and adults. GCRCs also provide infrastructure and resources that support several career development opportunities. Investigators who have research project funding from the National Institutes of Health (NIH) and other peer-reviewed sources may apply to use GCRCs. Because the GCRCs support a full spectrum of patient-oriented scientific inquiry, researchers who use these centers can benefit from collaborative, multidisciplinary research opportunities. To request access to a GCRC facility, eligible investigators should initially contact a GCRC program director, listed in the National Center for Research Resources (NCRR) Clinical Research Resources Directory (www.ncrr.nih.gov/ncrrprog/clindir/crdirectory.asp). Further information can be obtained from Anthony R. Hayward, M.D., Director, Division for Clinical Research Resources, National Center for Research Resources at NIH. Phone: (301) 435-0790;haywarda@ncrr.nih.gov.

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Resources currently available to the scientific community that may be of interest for endocrinology research are described briefly here. More information is available through The Endocrine Society Home Page (http://www.endo-society.org) or the information provided below. HUMAN TISSUE AND BIOLOGIC SPECIMEN RESOURCES NCI - Cooperative Human Tissue Network (CHTN) The NCI Cooperative Human Tissue Network (CHTN) provides normal, benign, precancerous, and cancerous human tissue to the scientific community for biomedical research. Specimens are collected according to the investigator’s individual protocol. Information provided with the specimens includes routine histopathologic and demographic data. The CHTN can also provide a variety of tissue microarrays. Contact the CHTN Web site at http://www-chtn.ims.nci.nih.gov, or 1-866-GO2-CHTN (1-866-462-2486). NCI - Cooperative Breast Cancer Tissue Resource (CBCTR) The NCI Cooperative Breast Cancer Tissue Resource (CBCTR) can provide researchers with access to formalin-fixed, paraffin-embedded primary breast cancer specimens, with associated pathologic, clinical, and outcome data. All specimens are evaluated for pathologic diagnosis by CBCTR pathologists using standard diagnostic criteria. The collection is particularly well suited for validation studies of diagnostic and prognostic markers. The CBCTR also makes available breast cancer tissue microarrays designed by NCI statisticians to provide high statistical power for studies of stage-specific markers of breast cancer. Contact CBCTR’s Web site at http://cbctr.nci.nih.gov, or contact Steve Marroulis at Information Management Services, Inc.: telephone: (301) 680-9770; email: marrouliss@imsweb.com. NCI - Cooperative Prostate Cancer Tissue Resource (CPCTR) The NCI Cooperative Prostate Cancer Tissue Resource (CPCTR) can provide access to over 4,000 cases of formalin-fixed, paraffin-embedded primary prostate cancer specimens, with associated pathology and clinical data. Fresh-frozen tissue is also available with limited clinical follow-up information. In addition, slides from prostate cancer tissue microarrays with associated pathology and clinical data are now available. Contact the CPCTR Web site at http://www.prostatetissues.org, or contact Steve Marroulis at Information Management Services, Inc.: telephone: (301) 680-9770; email: marrouliss@imsweb.com. NCI - AIDS and Cancer Specimen Resource (ACSR) The AIDS and Cancer Specimen Resource (ACSR) provides qualified researchers with tissue, cell, blood, and fluid specimens, as well as clinical data from patients with AIDS and cancer. The specimens and clinical data are available for research studies, particularly those that translate basic research findings to clinical application. Contact the ACSR Web site (http://acsr.ucsf.edu/) or Dr. Kishor Bhatia, (301) 496-7147; email: bhatiak@mail.nih.gov. NCI - Breast and Ovarian Cancer Family Registries (CFRs) The Breast and Ovarian CFRs facilitate and support interdisciplinary and population-based research on the identification and characterization of breast and ovarian cancer susceptibility genes, with particular emphasis on gene-gene and gene-environment interaction research. Available from the registries are: a) family history, epidemiologic and clinical data, b) updates on cancer recurrence, morbidity and mortality in participating families, and c) biospecimens, including plasma, lymphocytes, serum, DNA, Guthrie cards or buccal smears, and paraffin blocks of tumor tissue. For further information on these registries, contact the CFR Web site (http://epi.grants.cancer.gov/BCFR) or (301) 496-9600. NCI - Specimen Resource Locator The NCI Specimen Resource Locator (http://cancer.gov/specimens) is a database that helps researchers locate specimens for research. The database includes resources such as tissue banks and tissue procurement systems with access to normal, benign, precancerous, and/or cancerous human tissue covering a wide variety of organ sites. Researchers specify the types of specimens, number of cases, preservation methods, and associated data they require. The Locator will search the database and return a list of tissue resources most likely to meet their requirements. When no match is obtained, the researcher is referred to the NCI Tissue Expediter [(301) 496-7147; email: tissexp@mail.nih.gov]. The Tissue Expediter is a scientist who can help match researchers with appropriate resources or identify appropriate collaborators when those are necessary. NIDDK - Biologic Samples from Diabetic Study Foundation A portion (1/3) of all stored nonrenewable samples (plasma, serum, urine) from subjects enrolled in the Diabetes Control and Complications Trial (DCCT) is available for use by the scientific community to address questions for which these samples may be invaluable. Announcements for using this resource appear in the NIH Guide for Grants and Contracts periodically. Inquiries may be addressed to: Catherine C. Cowie, Ph.D., Director, Diabetes Epidemiology Program, NIDDK, 6707 Democracy Blvd., Room 691, MSC 5460, National Institute of Diabetes and Digestive and Kidney Diseases, Bethesda, MD 20892-5460. Phone: (301) 594-8804; fax: (301) 480-3503; email: cowiec@extra.niddk.nih.gov. NIDDK - NIDDK Central Repositories (Diabetes Prevention Study) The NIDDK Central Repositories have selected biosamples from the DPT-1 (The Diabetes Prevention Type 1) study that are available to qualified investigators through an application process. These samples are supplied for research purposes only, not for therapeutic, diagnostic, or commercial uses. Information about how to apply for these materials can be obtained from the NIDDK Central Repositories by contacting Ms. Helen Ray of RTI, 1-919-316-3418, or hmp@rti.org. Direct scientific-technical inquiry to the Project Officer of the NIDDK Central Repositories, Dr. Rebekah Rasooly, at phone: (301) 594-6007; email: rr185i@nih.gov. Visit the Repositories Web site at http://www.niddkrepository.org. NICHD - Brain and Tissue Bank for Developmental Disorders The purpose of the Bank is to collect, preserve, and distribute human tissues to investigators interested in autism and developmental disorders; normal tissues may be available for other research purposes. Further information can be obtained at www.btbank.org. The contact persons are H. Ron Zielke or Sally Wisniewsky, University of Maryland (1-800-847-1539), and Carol Petito or Stephanie Lojko, University of Miami (1-800-592-7246). NICHD - Reproductive Tissue Sample Repository (RTSaR) The Reproductive Tissue Sample Repository (RTSaR) is a virtual repository with online tissue sample acquisition capabilities. The RTSaR provides investigators with real-time access to human and nonhuman primate tissue and fluid inventories from four tissue bank facilities that are supported through the Specialized Cooperative Centers Program in Reproduction Research. The tissue banks are located at the University of California, San Diego (human ovary bank), Stanford University (human endometrium and DNA bank), Johns Hopkins University (male reproductive tissues and fluids), and the Oregon National Primate Research Center (nonhuman primate tissues). The web site for the RTSaR is https://rtsar.nichd.nih.gov/rtsar/login. If you wish to access the RTSaR, you can request an id and password to access the system by contacting the network administrator at RTSaR@mail.nih.gov. Once you access the system, contact information for each bank is provided. Access is open to all investigators living in North America who are supported by research and research training grants from the NIH. One id and password will be provided to each principal investigator that can be utilized by any person working in the P.I.’s laboratory, or, in the case of institutional training grants (T32) and institutional career development award programs (K12), any person supported by the aforementioned awards. NCRR - Human Tissues and Organs Resource (HTOR) The Human Tissues and Organs Resource (HTOR) cooperative agreement supports a procurement network developed by the National Disease Research Interchange (NDRI), a not-for-profit organization. By collaborating with various medical centers, hospitals, pathology services, eye banks, tissue banks, and organ procurement organizations, HTOR provides a wide variety of human tissues and organs—both diseased and normal—to researchers for laboratory studies. Such samples include tissues from the central nervous system and brain, cardiovascular system, endocrine system, eyes, bone, and cartilage. For further information, consult the NDRI Web site (www.ndri.com) or contact Dr. John T. Lonsdale at NDRI, 8 Penn Center, 8th Floor, 1628 JFK Boulevard, Philadelphia, PA 19103. Phone: (800) 222-6374, ext. 271; fax: (215) 557-7154; email: jlonsdale@ndriresource.org. The NDRI Web site is http://www.ndri.com. NCRR - Islet Cell Resource (ICR) With support from NCRR, 10 Islet Cell Resource (ICR) centers isolate, purify, and characterize human pancreatic islets for subsequent transplantation into patients with type I diabetes. The ICR centers procure whole pancreata and acquire relevant data about donors; improve islet isolation and purification techniques; distribute islets for use in approved clinical protocols; and perfect the methods of storage and shipping. In this way, the centers optimize the viability, function, and availability of islets and help clinical researchers capitalize on the recently reported successes in islet transplantation. Information on submitting requests for islet cells can be obtained from Mr. John Kaddis, ICR Coordinating Center Project Manager, City of Hope National Medical Center, 1500 E. Duarte Road, Duarte, California 91010. Phone (626) 359-8111, ext. 63377; fax: (626) 471-7106; email: jkaddis@coh.org. The Coordinating Center hosts a Web site at http://icr.coh.org. NIA - SWAN Repository (longitudinal, multiethnic study of women at midlife including the menopausal transition) The SWAN Repository is a biologic specimen bank of the Study of Women’s Health Across the Nation (SWAN). The SWAN cohort was recruited in 1996/1997 and consists of 3302 African-American, Caucasian, Chinese, Hispanic, and Japanese women. The SWAN Repository contains more than 350,000 blood and urine specimens generated from the study participants’ annual visits (8 visits to date), at which time medical and health history, psychosocial measures, biological measures, and anthropometric data were and are being collected. In addition, a subset of the participants are providing urine samples, collected daily over the length of one menstrual cycle, each year. More than 900,000 of these samples are in the SWAN Repository and are available to researchers who wish to study the midlife and menopausal transition. Additionally, a DNA sample repository is also available and includes DNA as well as transformed B-lymphoblastoid cell lines from more than 1800 of the participants. To learn more about the SWAN Repository and how to apply to use SWAN Repository specimens, contact the Web site at http://www. swanrepository.com or Dr. MaryFran Sowers, University of Michigan, School of Public Health, Epidemiology Dept., (734) 936-3892; email: mfsowers@umich.edu. HUMAN AND ANIMAL CELL AND BIOLOGIC REAGENT RESOURCES NIDDK - National Hormone and Peptide Program The National Hormone and Peptide Program (NHPP) offers peptide hormones and their antisera, tissues (rat hypothalami), and miscellaneous reagents to qualified investigators. These reagents are supplied for research purposes only, not for therapeutic, diagnostic, or commercial uses. These materials can be obtained from Dr. A. F. Parlow of the Harbor-UCLA Medical Center, Research and Education Institute, Torrance, CA. A more complete description of resources within this program is provided in The Endocrine Society journals. Direct scientific-technical inquiry to NHPP Scientific Director, Dr. Al Parlow, at phone: (310) 222-3537; fax: (310) 222-3432; email: parlow@humc.edu. Visit the NHPP Web site at http://www.humc.edu/hormones. NICHD - National Hormone and Pituitary Program (see NIDDK listing) Following is a list of reagents currently available through the resources of NICHD: Androgen receptor and peptide antigen Recombinant monkey (cynomolgus) and baboon luteinizing hormone and follicle-stimulating hormone and antisera. NIA - Aging Cell Bank To facilitate aging research on cells in culture, the NIA provides support for the Aging Cell Bank located at the Coriell Institute for Medical Research in Camden, NJ. The Aged Cell Bank provides fibroblast, lymphoblastoid, and differentiated cell lines from a wide range of human age-related conditions and other mammalian species, as well as DNA from a limited subset of cell lines. For further information, the Aged Cell Bank catalog can be accessed at http://locus.umdnj.edu/nia or contact Dr. Donald Coppock at 1-800-752-3805. NCRR - Various Cell Repositories NCRR maintains the following cell repository resources: National Cell Culture Center, National Stem Cell Resource, and the Yeast Genetic Stock Center. Further information regarding these resources may be obtained through the NCRR Web site at: www.ncrr.nih.gov/ncrrprog/cmpdir/BIOLOG.asp. ANIMAL RESOURCES NIA - Aging Rodent Resources NIA maintains both rat and mouse colonies for use by the scientific community. The animals available range in age from 1 to 36 months. A repository of fresh-frozen tissue from the NIA aged rodent colonies is stocked with tissue from mouse and rat strains, including caloric-restricted BALB/c mice. The NIA also maintains a colony of calorically restricted rodents of selected genotypes, which are available to the scientific community. For further information, please refer to the Aged Rodent information handbook at http://www.nia.nih.gov/ResearchInformation/ScientificResources/AgedRodentColoniesHandbook/ or contact the Office of Biological Resources and Resource Development order desk. Phone: (301) 496-0181; fax: (301) 402-5597; email: rodents@nia.nih.gov. NIA - Aged Rodent Tissue Bank The rodent tissue bank contains flash-frozen tissues from rodents in the NIA aged rodent colonies. Tissue is collected from rodents at 4 or 5 age points throughout the lifespan. Tissue arrays are also available. Information is available at http://www.nia.nih.gov/ResearchInformation/ScientificResources/AgedRodentTissueBankHandbook/. NCRR - Mutant Mouse Regional Resource Centers (MMRRC) The Mutant Mouse Regional Resource Center (MMRRC) Program consists of centers that collectively operate as a one-stop shop to serve the biomedical research community. Investigators who have created select mutant mouse models may donate their models to an MMRRC for broad dissemination to other investigators who request them for noncommercial research investigations related to human health, disease, and treatments. The NCRR Division of Comparative Medicine (DCM) supports the MMRRCs, which are electronically linked through the MMRRC Informatics Coordinating Center (ICC) to function as one facility. The ICC, located at The Jackson Laboratory in Bar Harbor, ME, provides database and other informatics support to the MMRRC to give the research community a single entry point to the program. Further information can be obtained from the Web site at http://www.mmrrc.org, or from Franziska Grieder, D.V.M., Ph.D., Division of Comparative Medicine, NCRR. Phone (301) 435-0744; fax: (301) 480-3819; email: griederf@ncrr.nih.gov. NCRR - Induced Mutant Mouse Resource (IMR) The Induced Mutant Mouse Resource (IMR) at The Jackson Laboratory provides researchers with genetically engineered mice (transgenic, targeted mutant, retroviral insertional mutant, and chemically induced mutant mice). The function of the IMR is to select, import, cryopreserve, maintain, and distribute these important strains of mice to the research community. To improve their value for research, the IMR also undertakes genetic development of stocks, such as transferring mutant genes or transgenes to defined genetic backgrounds and combining transgenes and/or targeted mutations to create new mouse models for research. Over 800 mutant stocks have been accepted by the IMR. Current holdings include models for research on cancer, immunological and inflammatory diseases, neurological diseases and behavioral disorders, cardiovascular diseases, developmental disorders, metabolic and other diseases, reporter (e.g. GFP) and recombinase (e.g. cre/loxP) strains. About 8 strains a month are being added to the IMR holdings. A list of all strains may be obtained from the IMR Web site: www.jax.org/resources/documents/imr/. Online submission forms are also available on that site. All mice can be ordered by calling The Jackson Laboratory’s Customer Service Department at 1-800-422-MICE or (207) 288-5845 or by faxing (207) 288-6150. NIDDK - Mouse Metabolic Phenotyping Centers The mission of the Mouse Metabolic Phenotyping Centers is to provide the scientific community with standardized, high-quality metabolic and physiologic phenotyping services for mouse models of diabetes, diabetic complications, obesity, and related disorders. Researchers can ship mice to one of the four Centers (University of Cincinnati, University of Texas Southwestern Medical Center, Vanderbilt University, and Yale University) and obtain on a fee-for-service basis a range of complex exams used to characterize mouse metabolism, blood composition, energy balance, eating and exercise, organ function and morphology, physiology, and histology. Many tests are done in living animals and are designed to elucidate the subtle hallmarks of metabolic disease. Information, including a complete list of available tests, can be found at www.mmpc.org, or contact Dr. Maren R. Laughlin, NIDDK, at (301) 594-8802; email: Maren.Laughlin@nih.gov; or Dr. Kristin Abraham, NIDDK, at (301) 451-8048; email: abrahamk@extra.niddk.nih.gov. NCRR - National Primate Research Centers (NPRCs) National Primate Research Centers (NPRCs) are a network of eight highly specialized facilities for nonhuman primates (NHP) research. Funded by grants through NCRR’s Division of Comparative Medicine (DCM), each center, staffed with experienced research and support staff, provides the appropriate research environment to foster the development of NHP models of human health and disease for biomedical investigations. The NPRCs are affiliated with academic institutions and are accessible to eligible biomedical and behavioral investigators supported by research project grants from the National Institutes of Health and other sources. Further information may be obtained from the notice, Procedures for Accessing Regional Primate Research Centers, published in the NIH Guide for Grants and Contracts at http://grants2.nih.gov/grants/guide/notice-files/not97-014.html, or from John Harding, Ph.D., National Primate Research Centers and AIDS Animal Models Program, Division of Comparative Medicine, NCRR. Phone: (301) 435-0744; fax: (301) 480-3819; email: hardingj@mail.nih.gov. NIA - Nonhuman Primates, Aging Set-Aside Colony NIA maintains approximately 200 nonhuman primates (M. mulatta) at four National Primate Research Centers (see above) for conducting research on aging. These animals range in age from 18 to 35 years. While these animals are predominantly reserved for non-invasive research, exceptions can be made to this policy. For further information, please contact Dr. Nancy Nadon, Office of Biological Resources and Resource Development, NIA. Phone: (301) 402-7744; fax: (301) 402-0010; email: nadonn@nia.nih.gov. NIA - Nonhuman Primate (NHP) Tissue Bank and Aging Database The NIA developed two new resources to facilitate research in the NHP model. The NHP tissue bank contains fresh-frozen and fixed tissue donated by primate centers around the country. Information is available at http://www.nia.nih.gov/ResearchInformation/ScientificResources/NHPTissueBankHandbook.htm. The Primate Aging Database provides an internet accessible database with data from thousands of primates around the country. It can be used to investigate the effect of age on a variety of parameters, predominantly blood chemistry and husbandry measurements. The site is password protected. The URL is http://ipad.primate.wisc.edu. NIA - Obesity, Diabetes and Aging Animal Resource (USF-ODARC) The NIA supports a colony of aged rhesus macaques, many of which are obese and/or diabetic. This is a long-term colony of monkeys housed at the University of South Florida’s Obesity, Diabetes and Aging Research Center. They have been extensively and longitudinally characterized for general health variables, blood chemistry, food intake, and body weight. Diabetic monkeys are tested daily for urine glucose and ketone levels, and prediabetic monkeys are tested weekly. Data for some of the monkeys extend as far back as 15 years. This unique resource is available for collaborative studies. ODARC has a significant amount of stored tissue collected at necropsy and stored blood/plasma collected longitudinally. Serial blood collection or tissue collection at necropsy can also be performed prospectively. Testing and imaging can also be performed on the monkeys. Inquiries regarding collaborative studies using the ODARC colony should be directed to: Barbara C. Hansen, Ph.D., Director, Obesity, Diabetes and Aging Research Center, University of South Florida, All Children’s Hospital, 801 6th Street South #9340, St. Petersburg, FL 33701. Phone: (727) 767-6993; fax: (727) 767-7443; email: bchansen@aol.com. NCRR - Various Animal Resources NCRR maintains the following animal resources: Animal Models and Genetic Stocks, Chimpanzee Biomedical Research Program, NIH Animal Genetic Resource, and the Specific Pathogen Free Macaque Breeding and Research Program. Further information regarding these and other resources may be obtained through the NCRR Web site at www.ncrr.nih.gov/comparative_med.asp. MISCELLANEOUS RESOURCES NCRR - National Gene Vector Laboratories (NGVLs) The National Gene Vector Laboratories (NGVLs), with core funding from NCRR, serve as a resource for researchers to obtain adequate quantities of clinical-grade vectors for human gene transfer protocols. The vector types include retrovirus, lentivirus, adenovirus, adeno-associated virus, herpes-virus, and DNA plasmids. The NGVLs consist of three vector production centers at: Baylor College of Medicine; City of Hope National Medical Center and Beckman Research Institute; and Indiana University, which also serves as the Coordinating Center for all the laboratories. Two additional laboratories conduct toxicology studies for NGVL-approved investigators. These laboratories are located at the Southern Research Institute and the University of Florida. Additional information about the process for requesting vector production and/or pharmacology/toxicology support should be directed to Ms. Lorraine Matheson, NGVL Project Coordinator, Indiana University School of Medicine. Phone: (317) 274-4519; fax: (317) 278-4518; email: lrubin@iupui.edu. The NGVL Coordinating Center at Indiana University also hosts a Web site at http://www.ngvl.org. NCRR - General Clinical Research Centers (GCRCs) The General Clinical Research Centers (GCRCs) are a national network of 82 centers that provide optimal settings for medical investigators to conduct safe, controlled, state-of-the-art in-patient and out-patient studies of both children and adults. GCRCs also provide infrastructure and resources that support several career development opportunities. Investigators who have research project funding from the National Institutes of Health (NIH) and other peer-reviewed sources may apply to use GCRCs. Because the GCRCs support a full spectrum of patient-oriented scientific inquiry, researchers who use these centers can benefit from collaborative, multidisciplinary research opportunities. To request access to a GCRC facility, eligible investigators should initially contact a GCRC program director, listed in the National Center for Research Resources (NCRR) Clinical Research Resources Directory (www.ncrr.nih.gov/ncrrprog/clindir/crdirectory.asp). Further information can be obtained from Anthony R. Hayward, M.D., Director, Division for Clinical Research Resources, National Center for Research Resources at NIH. Phone: (301) 435-0790; email: haywarda@ncrr.nih.gov.

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Resources currently available to the scientific community that may be of interest for endocrinology research are described briefly here. More information is available through The Endocrine Society Home Page (http://www.endo-society.org) or the information provided below. Human Tissue and Biologic Specimen Resources NCI - Cooperative Human Tissue Network (CHTN) The NCI Cooperative Human Tissue Network (CHTN) provides normal, benign, precancerous, and cancerous human tissue to the scientific community for biomedical research. Specimens are collected according to the investigator’s individual protocol. Information provided with the specimens includes routine histopathologic and demographic data. The CHTN can also provide a variety of tissue microarrays. Contact the CHTN Web site at http://www-chtn.ims.nci.nih.gov, or 1-866-GO2-CHTN (1-866-462-2486). NCI - Cooperative Breast Cancer Tissue Resource (CBCTR) The NCI Cooperative Breast Cancer Tissue Resource (CBCTR) can provide researchers with access to formalin-fixed, paraffin-embedded primary breast cancer specimens, with associated pathologic, clinical, and outcome data. All specimens are evaluated for pathologic diagnosis by CBCTR pathologists using standard diagnostic criteria. The collection is particularly well suited for validation studies of diagnostic and prognostic markers. The CBCTR also makes available breast cancer tissue microarrays designed by NCI statisticians to provide high statistical power for studies of stage-specific markers of breast cancer. Contact CBCTR’s Web site at http://cbctr.nci.nih.gov, or contact Steve Marroulis at Information Management Services, Inc.: telephone: (301) 680-9770;marrouliss@imsweb.com. NCI - Cooperative Prostate Cancer Tissue Resource (CPCTR) The NCI Cooperative Prostate Cancer Tissue Resource (CPCTR) can provide access to over 4,000 cases of formalin-fixed, paraffin-embedded primary prostate cancer specimens, with associated pathology and clinical data. Fresh-frozen tissue is also available with limited clinical follow-up information. In addition, slides from prostate cancer tissue microarrays with associated pathology and clinical data are now available. Contact the CPCTR Web site at http://www.prostatetissues.org, or contact Steve Marroulis at Information Management Services, Inc.: telephone: (301) 680-9770;marrouliss@imsweb.com. NCI - AIDS and Cancer Specimen Resource (ACSR) The AIDS and Cancer Specimen Resource (ACSR) provides qualified researchers with tissue, cell, blood, and fluid specimens, as well as clinical data from patients with AIDS and cancer. The specimens and clinical data are available for research studies, particularly those that translate basic research findings to clinical application. Contact the ACSR Web site (http://acsr.ucsf.edu/) or Dr. Kishor Bhatia, (301) 496-7147;bhatiak@mail.nih.gov. NCI - Breast and Ovarian Cancer Family Registries (CFRs) The Breast and Ovarian CFRs facilitate and support interdisciplinary and population-based research on the identification and characterization of breast and ovarian cancer susceptibility genes, with particular emphasis on gene-gene and gene-environment interaction research. Available from the registries are: a) family history, epidemiologic and clinical data, b) updates on cancer recurrence, morbidity and mortality in participating families, and c) biospecimens, including plasma, lymphocytes, serum, DNA, Guthrie cards or buccal smears, and paraffin blocks of tumor tissue. For further information on these registries, contact the CFR Web site (http://epi.grants.cancer.gov/BCFR) or (301) 496-9600. NCI - Specimen Resource Locator The NCI Specimen Resource Locator (http://cancer.gov/specimens) is a database that helps researchers locate specimens for research. The database includes resources such as tissue banks and tissue procurement systems with access to normal, benign, precancerous, and/or cancerous human tissue covering a wide variety of organ sites. Researchers specify the types of specimens, number of cases, preservation methods, and associated data they require. The Locator will search the database and return a list of tissue resources most likely to meet their requirements. When no match is obtained, the researcher is referred to the NCI Tissue Expediter [(301) 496-7147;tissexp@mail.nih.gov]. The Tissue Expediter is a scientist who can help match researchers with appropriate resources or identify appropriate collaborators when those are necessary. NIDDK - Biologic Samples from Diabetic Study Foundation A portion (1/3) of all stored nonrenewable samples (plasma, serum, urine) from subjects enrolled in the Diabetes Control and Complications Trial (DCCT) is available for use by the scientific community to address questions for which these samples may be invaluable. Announcements for using this resource appear in the NIH Guide for Grants and Contracts periodically. Inquiries may be addressed to: Catherine C. Cowie, Ph.D., Director, Diabetes Epidemiology Program, NIDDK, 6707 Democracy Blvd., Room 691, MSC 5460, National Institute of Diabetes and Digestive and Kidney Diseases, Bethesda, MD 20892-5460. Phone: (301) 594-8804; fax: (301) 480-3503;cowiec@extra.niddk.nih.gov. NIDDK - NIDDK Central Repositories (Diabetes Prevention Study) The NIDDK Central Repositories have selected biosamples from the DPT-1 (The Diabetes Prevention Type 1) study that are available to qualified investigators through an application process. These samples are supplied for research purposes only, not for therapeutic, diagnostic, or commercial uses. Information about how to apply for these materials can be obtained from the NIDDK Central Repositories by contacting Ms. Helen Ray of RTI, 1-919-316-3418, or hmp@rti.org. Direct scientific-technical inquiry to the Project Officer of the NIDDK Central Repositories, Dr. Rebekah Rasooly, at phone: (301) 594-6007;rr185i@nih.gov. Visit the Repositories Web site at http://www.niddkrepository.org. NICHD - Brain and Tissue Bank for Developmental Disorders The purpose of the Bank is to collect, preserve, and distribute human tissues to investigators interested in autism and developmental disorders; normal tissues may be available for other research purposes. Further information can be obtained at www.btbank.org. The contact persons are H. Ron Zielke or Sally Wisniewsky, University of Maryland (1-800-847-1539), and Carol Petito or Stephanie Lojko, University of Miami (1-800-592-7246). NICHD - Reproductive Tissue Sample Repository (RTSaR) The Reproductive Tissue Sample Repository (RTSaR) is a virtual repository with online tissue sample acquisition capabilities. The RTSaR provides investigators with real-time access to human and nonhuman primate tissue and fluid inventories from four tissue bank facilities that are supported through the Specialized Cooperative Centers Program in Reproduction Research. The tissue banks are located at the University of California, San Diego (human ovary bank), Stanford University (human endometrium and DNA bank), Johns Hopkins University (male reproductive tissues and fluids), and the Oregon National Primate Research Center (nonhuman primate tissues). The web site for the RTSaR is https://rtsar.nichd.nih.gov/rtsar/login. If you wish to access the RTSaR, you can request an id and password to access the system by contacting the network administrator at RTSaR@mail.nih.gov. Once you access the system, contact information for each bank is provided. Access is open to all investigators living in North America who are supported by research and research training grants from the NIH. One id and password will be provided to each principal investigator that can be utilized by any person working in the P.I.’s laboratory, or, in the case of institutional training grants (T32) and institutional career development award programs (K12), any person supported by the aforementioned awards. NCRR - Human Tissues and Organs Resource (HTOR) The Human Tissues and Organs Resource (HTOR) cooperative agreement supports a procurement network developed by the National Disease Research Interchange (NDRI), a not-for-profit organization. By collaborating with various medical centers, hospitals, pathology services, eye banks, tissue banks, and organ procurement organizations, HTOR provides a wide variety of human tissues and organs—both diseased and normal—to researchers for laboratory studies. Such samples include tissues from the central nervous system and brain, cardiovascular system, endocrine system, eyes, bone, and cartilage. For further information, consult the NDRI Web site (www.ndri.com) or contact Dr. John T. Lonsdale at NDRI, 8 Penn Center, 8th Floor, 1628 JFK Boulevard, Philadelphia, PA 19103. Phone: (800) 222-6374, ext. 271; fax: (215) 557-7154;jlonsdale@ndriresource.org. The NDRI Web site is http://www.ndri.com. NCRR - Islet Cell Resource (ICR) With support from NCRR, 10 Islet Cell Resource (ICR) centers isolate, purify, and characterize human pancreatic islets for subsequent transplantation into patients with type I diabetes. The ICR centers procure whole pancreata and acquire relevant data about donors; improve islet isolation and purification techniques; distribute islets for use in approved clinical protocols; and perfect the methods of storage and shipping. In this way, the centers optimize the viability, function, and availability of islets and help clinical researchers capitalize on the recently reported successes in islet transplantation. Information on submitting requests for islet cells can be obtained from Mr. John Kaddis, ICR Coordinating Center Project Manager, City of Hope National Medical Center, 1500 E. Duarte Road, Duarte, California 91010. Phone (626) 359-8111, ext. 63377; fax: (626) 471-7106;jkaddis@coh.org. The Coordinating Center hosts a Web site at http://icr.coh.org. NIA - SWAN Repository (longitudinal, multiethnic study of women at midlife including the menopausal transition) The SWAN Repository is a biologic specimen bank of the Study of Women’s Health Across the Nation (SWAN). The SWAN cohort was recruited in 1996/1997 and consists of 3302 African-American, Caucasian, Chinese, Hispanic, and Japanese women. The SWAN Repository contains more than 350,000 blood and urine specimens generated from the study participants’ annual visits (8 visits to date), at which time medical and health history, psychosocial measures, biological measures, and anthropometric data were and are being collected. In addition, a subset of the participants are providing urine samples, collected daily over the length of one menstrual cycle, each year. More than 900,000 of these samples are in the SWAN Repository and are available to researchers who wish to study the midlife and menopausal transition. Additionally, a DNA sample repository is also available and includes DNA as well as transformed B-lymphoblastoid cell lines from more than 1800 of the participants. To learn more about the SWAN Repository and how to apply to use SWAN Repository specimens, contact the Web site at http://www.swanrepository.com or Dr. MaryFran Sowers, University of Michigan, School of Public Health, Epidemiology Dept., (734) 936-3892;mfsowers@umich.edu. Human and Animal Cell and Biologic Reagent Resources NIDDK - National Hormone and Peptide Program The National Hormone and Peptide Program (NHPP) offers peptide hormones and their antisera, tissues (rat hypothalami), and miscellaneous reagents to qualified investigators. These reagents are supplied for research purposes only, not for therapeutic, diagnostic, or commercial uses. These materials can be obtained from Dr. A. F. Parlow of the Harbor-UCLA Medical Center, Research and Education Institute, Torrance, CA. A more complete description of resources within this program is provided in The Endocrine Society journals. Direct scientific-technical inquiry to NHPP Scientific Director, Dr. Al Parlow, at phone: (310) 222-3537; fax: (310) 222-3432;parlow@humc.edu. Visit the NHPP Web site at http://www.humc.edu/hormones. NICHD - National Hormone and Pituitary Program (see NIDDK listing) Following is a list of reagents currently available through the resources of NICHD:Androgen receptor and peptide antigen Recombinant monkey (cynomolgus) and baboon luteinizing hormone and follicle-stimulating hormone and antisera. NIA - Aging Cell Bank To facilitate aging research on cells in culture, the NIA provides support for the Aging Cell Bank located at the Coriell Institute for Medical Research in Camden, NJ. The Aged Cell Bank provides fibroblast, lymphoblastoid, and differentiated cell lines from a wide range of human age-related conditions and other mammalian species, as well as DNA from a limited subset of cell lines. For further information, the Aged Cell Bank catalog can be accessed at http://locus.umdnj.edu/nia or contact Dr. Donald Coppock at 1-800-752-3805. NCRR - Various Cell Repositories NCRR maintains the following cell repository resources: National Cell Culture Center, National Stem Cell Resource, and the Yeast Genetic Stock Center. Further information regarding these resources may be obtained through the NCRR Web site at: www.ncrr.nih.gov/ncrrprog/cmpdir/BIOLOG.asp. Animal Resources NIA - Aging Rodent Resources NIA maintains both rat and mouse colonies for use by the scientific community. The animals available range in age from 1 to 36 months. A repository of fresh-frozen tissue from the NIA aged rodent colonies is stocked with tissue from mouse and rat strains, including caloric-restricted BALB/c mice. The NIA also maintains a colony of calorically restricted rodents of selected genotypes, which are available to the scientific community. For further information, please refer to the Aged Rodent information handbook at http://www.nia.nih.gov/ResearchInformation/ScientificResources/AgedRodentColoniesHandbook/ or contact the Office of Biological Resources and Resource Development order desk. Phone: (301) 496-0181; fax: (301) 402-5597;rodents@nia.nih.gov. NIA - Aged Rodent Tissue Bank The rodent tissue bank contains flash-frozen tissues from rodents in the NIA aged rodent colonies. Tissue is collected from rodents at 4 or 5 age points throughout the lifespan. Tissue arrays are also available. Information is available at http://www.nia.nih.gov/ResearchInformation/ScientificResources/AgedRodentTissueBankHandbook/. NCRR - Mutant Mouse Regional Resource Centers (MMRRC) The Mutant Mouse Regional Resource Center (MMRRC) Program consists of centers that collectively operate as a one-stop shop to serve the biomedical research community. Investigators who have created select mutant mouse models may donate their models to an MMRRC for broad dissemination to other investigators who request them for noncommercial research investigations related to human health, disease, and treatments. The NCRR Division of Comparative Medicine (DCM) supports the MMRRCs, which are electronically linked through the MMRRC Informatics Coordinating Center (ICC) to function as one facility. The ICC, located at The Jackson Laboratory in Bar Harbor, ME, provides database and other informatics support to the MMRRC to give the research community a single entry point to the program. Further information can be obtained from the Web site at http://www.mmrrc.org, or from Franziska Grieder, D.V.M., Ph.D., Division of Comparative Medicine, NCRR. Phone (301) 435-0744; fax: (301) 480-3819;griederf@ncrr.nih.gov. NCRR - Induced Mutant Mouse Resource (IMR) The Induced Mutant Mouse Resource (IMR) at The Jackson Laboratory provides researchers with genetically engineered mice (transgenic, targeted mutant, retroviral insertional mutant, and chemically induced mutant mice). The function of the IMR is to select, import, cryopreserve, maintain, and distribute these important strains of mice to the research community. To improve their value for research, the IMR also undertakes genetic development of stocks, such as transferring mutant genes or transgenes to defined genetic backgrounds and combining transgenes and/or targeted mutations to create new mouse models for research. Over 800 mutant stocks have been accepted by the IMR. Current holdings include models for research on cancer, immunological and inflammatory diseases, neurological diseases and behavioral disorders, cardiovascular diseases, developmental disorders, metabolic and other diseases, reporter (e.g. GFP) and recombinase (e.g. cre/loxP) strains. About 8 strains a month are being added to the IMR holdings. A list of all strains may be obtained from the IMR Web site: www.jax.org/resources/documents/imr/. Online submission forms are also available on that site. All mice can be ordered by calling The Jackson Laboratory’s Customer Service Department at 1-800-422-MICE or (207) 288-5845 or by faxing (207) 288-6150. NIDDK - Mouse Metabolic Phenotyping Centers The mission of the Mouse Metabolic Phenotyping Centers is to provide the scientific community with standardized, high-quality metabolic and physiologic phenotyping services for mouse models of diabetes, diabetic complications, obesity, and related disorders. Researchers can ship mice to one of the four Centers (University of Cincinnati, University of Texas Southwestern Medical Center, Vanderbilt University, and Yale University) and obtain on a fee-for-service basis a range of complex exams used to characterize mouse metabolism, blood composition, energy balance, eating and exercise, organ function and morphology, physiology, and histology. Many tests are done in living animals and are designed to elucidate the subtle hallmarks of metabolic disease. Information, including a complete list of available tests, can be found at www.mmpc.org, or contact Dr. Maren R. Laughlin, NIDDK, at (301) 594-8802;Maren.Laughlin@nih.gov; or Dr. Kristin Abraham, NIDDK, at (301) 451-8048;abrahamk@extra.niddk.nih.gov. NCRR - National Primate Research Centers (NPRCs) National Primate Research Centers (NPRCs) are a network of eight highly specialized facilities for nonhuman primates (NHP) research. Funded by grants through NCRR’s Division of Comparative Medicine (DCM), each center, staffed with experienced research and support staff, provides the appropriate research environment to foster the development of NHP models of human health and disease for biomedical investigations. The NPRCs are affiliated with academic institutions and are accessible to eligible biomedical and behavioral investigators supported by research project grants from the National Institutes of Health and other sources. Further information may be obtained from the notice, Procedures for Accessing Regional Primate Research Centers, published in the NIH Guide for Grants and Contracts at http://grants2.nih.gov/grants/guide/notice-files/not97-014.html, or from John Harding, Ph.D., National Primate Research Centers and AIDS Animal Models Program, Division of Comparative Medicine, NCRR. Phone: (301) 435-0744; fax: (301) 480-3819;hardingj@mail.nih.gov. NIA - Nonhuman Primates, Aging Set-Aside Colony NIA maintains approximately 200 nonhuman primates (M. mulatta) at four National Primate Research Centers (see above) for conducting research on aging. These animals range in age from 18 to 35 years. While these animals are predominantly reserved for non-invasive research, exceptions can be made to this policy. For further information, please contact Dr. Nancy Nadon, Office of Biological Resources and Resource Development, NIA. Phone: (301) 402-7744; fax: (301) 402-0010;nadonn@nia.nih.gov. NIA - Nonhuman Primate (NHP) Tissue Bank and Aging Database The NIA developed two new resources to facilitate research in the NHP model. The NHP tissue bank contains fresh-frozen and fixed tissue donated by primate centers around the country. Information is available at http://www.nia.nih.gov/ResearchInformation/ScientificResources/NHPTissueBankHandbook.htm. The Primate Aging Database provides an internet accessible database with data from thousands of primates around the country. It can be used to investigate the effect of age on a variety of parameters, predominantly blood chemistry and husbandry measurements. The site is password protected. The URL is http://ipad.primate.wisc.edu. NIA - Obesity, Diabetes and Aging Animal Resource (USF-ODARC) The NIA supports a colony of aged rhesus macaques, many of which are obese and/or diabetic. This is a long-term colony of monkeys housed at the University of South Florida’s Obesity, Diabetes and Aging Research Center. They have been extensively and longitudinally characterized for general health variables, blood chemistry, food intake, and body weight. Diabetic monkeys are tested daily for urine glucose and ketone levels, and prediabetic monkeys are tested weekly. Data for some of the monkeys extend as far back as 15 years. This unique resource is available for collaborative studies. ODARC has a significant amount of stored tissue collected at necropsy and stored blood/plasma collected longitudinally. Serial blood collection or tissue collection at necropsy can also be performed prospectively. Testing and imaging can also be performed on the monkeys. Inquiries regarding collaborative studies using the ODARC colony should be directed to: Barbara C. Hansen, Ph.D., Director, Obesity, Diabetes and Aging Research Center, University of South Florida, All Children’s Hospital, 801 6th Street South #9340, St. Petersburg, FL 33701. Phone: (727) 767-6993; fax: (727) 767-7443;bchansen@aol.com. NCRR - Various Animal Resources NCRR maintains the following animal resources: Animal Models and Genetic Stocks, Chimpanzee Biomedical Research Program, NIH Animal Genetic Resource, and the Specific Pathogen Free Macaque Breeding and Research Program. Further information regarding these and other resources may be obtained through the NCRR Web site at www.ncrr.nih.gov/comparative_med.asp. IN SILICO RESOURCES NIDDK, NHLBI, and NIEHS - Nuclear Receptor Signaling Atlas The Nuclear Receptor Signaling Atlas (NURSA) has created an in silico resource comprised of curated information about Nuclear Receptors, Coregulators, Ligands, and Downstream Targets. NURSA is sponsored by NIH and provides online access through a public webportal at www.NURSA.org. Ease of navigation through a series of molecule pages allows users to make queries about Nuclear Receptors, Coactivators and Corepressors. Additional information about nuclear receptor ligands is provided, as well as primary datasets relating to expression profiling of nuclear receptors, coregulators and downstream targets. The molecule pages are hyperlinked to data contained in external databases, including NCBI, KEGG, UniProt, and others, allowing for detailed data mining. In partnership with The Endocrine Society, NURSA and Molecular Endocrinology (http://mend.endojournals.org/) have reciprocal links designed to enhance publications in Molecular Endocrinology and the information available through the NURSA molecule pages. Links to additional relevant literature citations are from PubMed at the National Library of Medicine. Miscellaneous Resources NCRR - National Gene Vector Laboratories (NGVLs) The National Gene Vector Laboratories (NGVLs), with core funding from NCRR, serve as a resource for researchers to obtain adequate quantities of clinical-grade vectors for human gene transfer protocols. The vector types include retrovirus, lentivirus, adenovirus, adeno-associated virus, herpes-virus, and DNA plasmids. The NGVLs consist of three vector production centers at: Baylor College of Medicine; City of Hope National Medical Center and Beckman Research Institute; and Indiana University, which also serves as the Coordinating Center for all the laboratories. Two additional laboratories conduct toxicology studies for NGVL-approved investigators. These laboratories are located at the Southern Research Institute and the University of Florida. Additional information about the process for requesting vector production and/or pharmacology/toxicology support should be directed to Ms. Lorraine Matheson, NGVL Project Coordinator, Indiana University School of Medicine. Phone: (317) 274-4519; fax: (317) 278-4518;lrubin@iupui.edu. The NGVL Coordinating Center at Indiana University also hosts a Web site at http://www.ngvl.org. NCRR - General Clinical Research Centers (GCRCs) The General Clinical Research Centers (GCRCs) are a national network of 82 centers that provide optimal settings for medical investigators to conduct safe, controlled, state-of-the-art in-patient and out-patient studies of both children and adults. GCRCs also provide infrastructure and resources that support several career development opportunities. Investigators who have research project funding from the National Institutes of Health (NIH) and other peer-reviewed sources may apply to use GCRCs. Because the GCRCs support a full spectrum of patient-oriented scientific inquiry, researchers who use these centers can benefit from collaborative, multidisciplinary research opportunities. To request access to a GCRC facility, eligible investigators should initially contact a GCRC program director, listed in the National Center for Research Resources (NCRR) Clinical Research Resources Directory (www.ncrr.nih.gov/ncrrprog/clindir/crdirectory.asp). Further information can be obtained from Anthony R. Hayward, M.D., Director, Division for Clinical Research Resources, National Center for Research Resources at NIH. Phone: (301) 435-0790;haywarda@ncrr.nih.gov.

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Abstract:

Resources currently available to the scientific community that may be of interest for endocrinology research are described briefly here. More information is available through The Endocrine Society Home Page (http://www.endo-society.org) or the information provided below. HUMAN TISSUE AND BIOLOGIC SPECIMEN RESOURCES NCI - Cooperative Human Tissue Network (CHTN) The NCI Cooperative Human Tissue Network (CHTN) provides normal, benign, precancerous, and cancerous human tissue to the scientific community for biomedical research. Specimens are collected according to the investigator’s individual protocol. Information provided with the specimens includes routine histopathologic and demographic data. The CHTN can also provide a variety of tissue microarrays. Contact the CHTN Web site at http://www-chtn.ims.nci.nih.gov, or 1-866-GO2-CHTN (1-866-462-2486). NCI - Cooperative Breast Cancer Tissue Resource (CBCTR) The NCI Cooperative Breast Cancer Tissue Resource (CBCTR) can provide researchers with access to formalin-fixed, paraffin-embedded primary breast cancer specimens, with associated pathologic, clinical, and outcome data. All specimens are evaluated for pathologic diagnosis by CBCTR pathologists using standard diagnostic criteria. The collection is particularly well suited for validation studies of diagnostic and prognostic markers. The CBCTR also makes available breast cancer tissue microarrays designed by NCI statisticians to provide high statistical power for studies of stage-specific markers of breast cancer. Contact CBCTR’s Web site at http://cbctr.nci.nih.gov, or contact Steve Marroulis at Information Management Services, Inc.: telephone: (301) 680-9770; e-mail: marrouliss@imsweb.com. NCI - Cooperative Prostate Cancer Tissue Resource (CPCTR) The NCI Cooperative Prostate Cancer Tissue Resource (CPCTR) can provide access to over 4,000 cases of formalin-fixed, paraffin-embedded primary prostate cancer specimens, with associated pathology and clinical data. Fresh-frozen tissue is also available with limited clinical follow-up information. In addition, slides from prostate cancer tissue microarrays with associated pathology and clinical data are now available. Contact the CPCTR Web site at http://www.prostatetissues.org, or contact Steve Marroulis at Information Management Services, Inc.: telephone: (301) 680-9770; e-mail: marrouliss@imsweb.com. NCI - AIDS and Cancer Specimen Resource (ACSR) The AIDS and Cancer Specimen Resource (ACSR) provides qualified researchers with tissue, cell, blood, and fluid specimens, as well as clinical data from patients with AIDS and cancer. The specimens and clinical data are available for research studies, particularly those that translate basic research findings to clinical application. Contact the ACSR Web site (http://acsr.ucsf.edu/) or Dr. Kishor Bhatia, (301) 496-7147; e-mail: bhatiak@mail.nih.gov. NCI - Breast and Ovarian Cancer Family Registries (CFRs) The Breast and Ovarian CFRs facilitate and support interdisciplinary and population-based research on the identification and characterization of breast and ovarian cancer susceptibility genes, with particular emphasis on gene-gene and gene-environment interaction research. Available from the registries are: a) family history, epidemiologic and clinical data, b) updates on cancer recurrence, morbidity and mortality in participating families, and c) biospecimens, including plasma, lymphocytes, serum, DNA, Guthrie cards or buccal smears, and paraffin blocks of tumor tissue. For further information on these registries, contact the CFR Web site (http://epi.grants.cancer.gov/BCFR) or (301) 496-9600. NCI - Specimen Resource Locator The NCI Specimen Resource Locator (http://cancer.gov/specimens) is a database that helps researchers locate specimens for research. The database includes resources such as tissue banks and tissue procurement systems with access to normal, benign, precancerous, and/or cancerous human tissue covering a wide variety of organ sites. Researchers specify the types of specimens, number of cases, preservation methods, and associated data they require. The Locator will search the database and return a list of tissue resources most likely to meet their requirements. When no match is obtained, the researcher is referred to the NCI Tissue Expediter [(301) 496-7147; e-mail: tissexp@mail.nih.gov]. The Tissue Expediter is a scientist who can help match researchers with appropriate resources or identify appropriate collaborators when those are necessary. NIDDK - Biologic Samples from Diabetic Study Foundation A portion (1/3) of all stored nonrenewable samples (plasma, serum, urine) from subjects enrolled in the Diabetes Control and Complications Trial (DCCT) is available for use by the scientific community to address questions for which these samples may be invaluable. Announcements for using this resource appear in the NIH Guide for Grants and Contracts periodically. Inquiries may be addressed to: Catherine C. Cowie, Ph.D., Director, Diabetes Epidemiology Program, NIDDK, 6707 Democracy Blvd., Room 691, MSC 5460, National Institute of Diabetes and Digestive and Kidney Diseases, Bethesda, MD 20892-5460. Phone: (301) 594-8804; fax: (301) 480-3503; e-mail: cowiec@extra.niddk.nih.gov. NIDDK - NIDDK Central Repositories (Diabetes Prevention Study) The NIDDK Central Repositories have selected biosamples from the DPT-1 (The Diabetes Prevention Type 1) study that are available to qualified investigators through an application process. These samples are supplied for research purposes only, not for therapeutic, diagnostic, or commercial uses. Information about how to apply for these materials can be obtained from the NIDDK Central Repositories by contacting Ms. Helen Ray of RTI, 1-919-316-3418, or hmp@rti.org. Direct scientific-technical inquiry to the Project Officer of the NIDDK Central Repositories, Dr. Rebekah Rasooly, at phone: (301) 594-6007; e-mail: rr185i@nih.gov. Visit the Repositories Web site at http://www.niddkrepository.org. NICHD - Brain and Tissue Bank for Developmental Disorders The purpose of the Bank is to collect, preserve, and distribute human tissues to investigators interested in autism and developmental disorders; normal tissues may be available for other research purposes. Further information can be obtained at www.btbank.org. The contact persons are H. Ron Zielke or Sally Wisniewsky, University of Maryland (1-800-847-1539), and Carol Petito or Stephanie Lojko, University of Miami (1-800-592-7246). NICHD - Reproductive Tissue Sample Repository (RTSaR) The Reproductive Tissue Sample Repository (RTSaR) is a virtual repository with online tissue sample acquisition capabilities. The RTSaR provides investigators with real-time access to human and nonhuman primate tissue and fluid inventories from four tissue bank facilities that are supported through the Specialized Cooperative Centers Program in Reproduction Research. The tissue banks are located at the University of California, San Diego (human ovary bank), Stanford University (human endometrium and DNA bank), Johns Hopkins University (male reproductive tissues and fluids), and the Oregon National Primate Research Center (nonhuman primate tissues). The web site for the RTSaR is https://rtsar.nichd.nih.gov/rtsar/login. If you wish to access the RTSaR, you can request an id and password to access the system by contacting the network administrator at RTSaR@mail.nih.gov. Once you access the system, contact information for each bank is provided. Access is open to all investigators living in North America who are supported by research and research training grants from the NIH. One id and password will be provided to each principal investigator that can be utilized by any person working in the P.I.’s laboratory, or, in the case of institutional training grants (T32) and institutional career development award programs (K12), any person supported by the aforementioned awards. NCRR - Human Tissues and Organs Resource (HTOR) The Human Tissues and Organs Resource (HTOR) cooperative agreement supports a procurement network developed by the National Disease Research Interchange (NDRI), a not-for-profit organization. By collaborating with various medical centers, hospitals, pathology services, eye banks, tissue banks, and organ procurement organizations, HTOR provides a wide variety of human tissues and organs—both diseased and normal—to researchers for laboratory studies. Such samples include tissues from the central nervous system and brain, cardiovascular system, endocrine system, eyes, bone, and cartilage. For further information, consult the NDRI Web site (www.ndri.com) or contact Dr. John T. Lonsdale at NDRI, 8 Penn Center, 8th Floor, 1628 JFK Boulevard, Philadelphia, PA 19103. Phone: (800) 222-6374, ext. 271; fax: (215) 557-7154; e-mail: jlonsdale@ndriresource.org. The NDRI Web site is http://www.ndri.com. NCRR - Islet Cell Resource (ICR) With support from NCRR, 10 Islet Cell Resource (ICR) centers isolate, purify, and characterize human pancreatic islets for subsequent transplantation into patients with type I diabetes. The ICR centers procure whole pancreata and acquire relevant data about donors; improve islet isolation and purification techniques; distribute islets for use in approved clinical protocols; and perfect the methods of storage and shipping. In this way, the centers optimize the viability, function, and availability of islets and help clinical researchers capitalize on the recently reported successes in islet transplantation. Information on submitting requests for islet cells can be obtained from Mr. John Kaddis, ICR Coordinating Center Project Manager, City of Hope National Medical Center, 1500 E. Duarte Road, Duarte, California 91010. Phone (626) 359-8111, ext. 63377; fax: (626) 471-7106; e-mail: jkaddis@coh.org. The Coordinating Center hosts a Web site at http://icr.coh.org. NIA - SWAN Repository (longitudinal, multiethnic study of women at midlife including the menopausal transition) The SWAN Repository is a biologic specimen bank of the Study of Women’s Health Across the Nation (SWAN). The SWAN cohort was recruited in 1996/1997 and consists of 3302 African-American, Caucasian, Chinese, Hispanic, and Japanese women. The SWAN Repository contains more than 350,000 blood and urine specimens generated from the study participants’ annual visits (8 visits to date), at which time medical and health history, psychosocial measures, biological measures, and anthropometric data were and are being collected. In addition, a subset of the participants are providing urine samples, collected daily over the length of one menstrual cycle, each year. More than 900,000 of these samples are in the SWAN Repository and are available to researchers who wish to study the midlife and menopausal transition. Additionally, a DNA sample repository is also available and includes DNA as well as transformed B-lymphoblastoid cell lines from more than 1800 of the participants. To learn more about the SWAN Repository and how to apply to use SWAN Repository specimens, contact the Web site at http://www.swanrepository.com or Dr. MaryFran Sowers, University of Michigan, School of Public Health, Epidemiology Dept., (734) 936-3892; e-mail: mfsowers@umich.edu. HUMAN AND ANIMAL CELL AND BIOLOGIC REAGENT RESOURCES NIDDK - National Hormone and Peptide Program The National Hormone and Peptide Program (NHPP) offers peptide hormones and their antisera, tissues (rat hypothalami), and miscellaneous reagents to qualified investigators. These reagents are supplied for research purposes only, not for therapeutic, diagnostic, or commercial uses. These materials can be obtained from Dr. A. F. Parlow of the Harbor-UCLA Medical Center, Research and Education Institute, Torrance, CA. A more complete description of resources within this program is provided in The Endocrine Society journals. Direct scientific-technical inquiry to NHPP Scientific Director, Dr. Al Parlow, at phone: (310) 222-3537; fax: (310) 222-3432; e-mail: parlow@humc.edu. Visit the NHPP Web site at http://www.humc.edu/hormones. NICHD - National Hormone and Pituitary Program (see NIDDK listing) Following is a list of reagents currently available through the resources of NICHD: Androgen receptor and peptide antigenRecombinant monkey (cynomolgus) and baboon luteinizing hormone and follicle-stimulating hormone and antisera. NIA - Aging Cell Bank To facilitate aging research on cells in culture, the NIA provides support for the Aging Cell Bank located at the Coriell Institute for Medical Research in Camden, NJ. The Aged Cell Bank provides fibroblast, lymphoblastoid, and differentiated cell lines from a wide range of human age-related conditions and other mammalian species, as well as DNA from a limited subset of cell lines. For further information, the Aged Cell Bank catalog can be accessed at http://locus.umdnj.edu/nia or contact Dr. Donald Coppock at 1-800-752-3805. NCRR - Various Cell Repositories NCRR maintains the following cell repository resources: National Cell Culture Center, National Stem Cell Resource, and the Yeast Genetic Stock Center. Further information regarding these resources may be obtained through the NCRR Web site at: www.ncrr.nih.gov/ncrrprog/cmpdir/BIOLOG.asp. ANIMAL RESOURCES NIA - Aging Rodent Resources NIA maintains both rat and mouse colonies for use by the scientific community. The animals available range in age from 1 to 36 months. A repository of fresh-frozen tissue from the NIA aged rodent colonies is stocked with tissue from mouse and rat strains, including caloric-restricted BALB/c mice. The NIA also maintains a colony of calorically restricted rodents of selected genotypes, which are available to the scientific community. For further information, please refer to the Aged Rodent information handbook at http://www.nia.nih.gov/ResearchInformation/ScientificResources/AgedRodentColoniesHandbook/ or contact the Office of Biological Resources and Resource Development order desk. Phone: (301) 496-0181; fax: (301) 402-5597; e-mail: rodents@nia.nih.gov. NIA - Aged Rodent Tissue Bank The rodent tissue bank contains flash-frozen tissues from rodents in the NIA aged rodent colonies. Tissue is collected from rodents at 4 or 5 age points throughout the lifespan. Tissue arrays are also available. Information is available at http://www.nia.nih.gov/ResearchInformation/ScientificResources/AgedRodentTissueBankHandbook/. NCRR - Mutant Mouse Regional Resource Centers (MMRRC) The Mutant Mouse Regional Resource Center (MMRRC) Program consists of centers that collectively operate as a one-stop shop to serve the biomedical research community. Investigators who have created select mutant mouse models may donate their models to an MMRRC for broad dissemination to other investigators who request them for noncommercial research investigations related to human health, disease, and treatments. The NCRR Division of Comparative Medicine (DCM) supports the MMRRCs, which are electronically linked through the MMRRC Informatics Coordinating Center (ICC) to function as one facility. The ICC, located at The Jackson Laboratory in Bar Harbor, ME, provides database and other informatics support to the MMRRC to give the research community a single entry point to the program. Further information can be obtained from the Web site at http://www.mmrrc.org, or from Franziska Grieder, D.V.M., Ph.D., Division of Comparative Medicine, NCRR. Phone (301) 435-0744; fax: (301) 480-3819; e-mail: griederf@ncrr.nih.gov. NCRR - Induced Mutant Mouse Resource (IMR) The Induced Mutant Mouse Resource (IMR) at The Jackson Laboratory provides researchers with genetically engineered mice (transgenic, targeted mutant, retroviral insertional mutant, and chemically induced mutant mice). The function of the IMR is to select, import, cryopreserve, maintain, and distribute these important strains of mice to the research community. To improve their value for research, the IMR also undertakes genetic development of stocks, such as transferring mutant genes or transgenes to defined genetic backgrounds and combining transgenes and/or targeted mutations to create new mouse models for research. Over 800 mutant stocks have been accepted by the IMR. Current holdings include models for research on cancer, immunological and inflammatory diseases, neurological diseases and behavioral disorders, cardiovascular diseases, developmental disorders, metabolic and other diseases, reporter (e.g. GFP) and recombinase (e.g. cre/loxP) strains. About 8 strains a month are being added to the IMR holdings. A list of all strains may be obtained from the IMR Web site: www.jax.org/resources/documents/imr/. Online submission forms are also available on that site. All mice can be ordered by calling The Jackson Laboratory’s Customer Service Department at 1-800-422-MICE or (207) 288-5845 or by faxing (207) 288-6150. NIDDK - Mouse Metabolic Phenotyping Centers The mission of the Mouse Metabolic Phenotyping Centers is to provide the scientific community with standardized, high-quality metabolic and physiologic phenotyping services for mouse models of diabetes, diabetic complications, obesity, and related disorders. Researchers can ship mice to one of the four Centers (University of Cincinnati, University of Texas Southwestern Medical Center, Vanderbilt University, and Yale University) and obtain on a fee-for-service basis a range of complex exams used to characterize mouse metabolism, blood composition, energy balance, eating and exercise, organ function and morphology, physiology, and histology. Many tests are done in living animals and are designed to elucidate the subtle hallmarks of metabolic disease. Information, including a complete list of available tests, can be found at www.mmpc.org, or contact Dr. Maren R. Laughlin, NIDDK, at (301) 594-8802; e-mail: Maren.Laughlin@nih.gov; or Dr. Kristin Abraham, NIDDK, at (301) 451-8048; e-mail: abrahamk@extra.niddk.nih.gov. NCRR - National Primate Research Centers (NPRCs) National Primate Research Centers (NPRCs) are a network of eight highly specialized facilities for nonhuman primates (NHP) research. Funded by grants through NCRR’s Division of Comparative Medicine (DCM), each center, staffed with experienced research and support staff, provides the appropriate research environment to foster the development of NHP models of human health and disease for biomedical investigations. The NPRCs are affiliated with academic institutions and are accessible to eligible biomedical and behavioral investigators supported by research project grants from the National Institutes of Health and other sources. Further information may be obtained from the notice, Procedures for Accessing Regional Primate Research Centers, published in the NIH Guide for Grants and Contracts at http://grants2.nih.gov/grants/guide/notice-files/not97-014.html, or from John Harding, Ph.D., National Primate Research Centers and AIDS Animal Models Program, Division of Comparative Medicine, NCRR. Phone: (301) 435-0744; fax: (301) 480-3819; e-mail: hardingj@mail.nih.gov. NIA - Nonhuman Primates, Aging Set-Aside Colony NIA maintains approximately 200 nonhuman primates (M. mulatta) at four National Primate Research Centers (see above) for conducting research on aging. These animals range in age from 18 to 35 years. While these animals are predominantly reserved for non-invasive research, exceptions can be made to this policy. For further information, please contact Dr. Nancy Nadon, Office of Biological Resources and Resource Development, NIA. Phone: (301) 402-7744; fax: (301) 402-0010; e-mail: nadonn@nia.nih.gov. NIA - Nonhuman Primate (NHP) Tissue Bank and Aging Database The NIA developed two new resources to facilitate research in the NHP model. The NHP tissue bank contains fresh-frozen and fixed tissue donated by primate centers around the country. Information is available at http://www.nia.nih.gov/ResearchInformation/ScientificResources/NHPTissueBankHandbook.htm. The Primate Aging Database provides an internet accessible database with data from thousands of primates around the country. It can be used to investigate the effect of age on a variety of parameters, predominantly blood chemistry and husbandry measurements. The site is password protected. The URL is http://ipad.primate.wisc.edu. NIA - Obesity, Diabetes and Aging Animal Resource (USF-ODARC) The NIA supports a colony of aged rhesus macaques, many of which are obese and/or diabetic. This is a long-term colony of monkeys housed at the University of South Florida’s Obesity, Diabetes and Aging Research Center. They have been extensively and longitudinally characterized for general health variables, blood chemistry, food intake, and body weight. Diabetic monkeys are tested daily for urine glucose and ketone levels, and prediabetic monkeys are tested weekly. Data for some of the monkeys extend as far back as 15 years. This unique resource is available for collaborative studies. ODARC has a significant amount of stored tissue collected at necropsy and stored blood/plasma collected longitudinally. Serial blood collection or tissue collection at necropsy can also be performed prospectively. Testing and imaging can also be performed on the monkeys. Inquiries regarding collaborative studies using the ODARC colony should be directed to: Barbara C. Hansen, Ph.D., Director, Obesity, Diabetes and Aging Research Center, University of South Florida, All Children’s Hospital, 801 6th Street South #9340, St. Petersburg, FL 33701. Phone: (727) 767-6993; fax: (727) 767-7443; e-mail: bchansen@aol.com. NCRR - Various Animal Resources NCRR maintains the following animal resources: Animal Models and Genetic Stocks, Chimpanzee Biomedical Research Program, NIH Animal Genetic Resource, and the Specific Pathogen Free Macaque Breeding and Research Program. Further information regarding these and other resources may be obtained through the NCRR Web site at www.ncrr.nih.gov/comparative_med.asp. IN SILICO RESOURCES NIDDK, NHLBI, and NIEHS - Nuclear Receptor Signaling Atlas The Nuclear Receptor Signaling Atlas (NURSA) has created an in silico resource comprised of curated information about Nuclear Receptors, Coregulators, Ligands, and Downstream Targets. NURSA is sponsored by NIH and provides online access through a public webportal at www.NURSA.org. Ease of navigation through a series of molecule pages allows users to make queries about Nuclear Receptors, Coactivators and Corepressors. Additional information about nuclear receptor ligands is provided, as well as primary datasets relating to expression profiling of nuclear receptors, coregulators and downstream targets. The molecule pages are hyperlinked to data contained in external databases, including NCBI, KEGG, UniProt, and others, allowing for detailed data mining. In partnership with The Endocrine Society, NURSA and Molecular Endocrinology (http://mend.endojournals.org/) have reciprocal links designed to enhance publications in Molecular Endocrinology and the information available through the NURSA molecule pages. Links to additional relevant literature citations are from PubMed at the National Library of Medicine. MISCELLANEOUS RESOURCES NCRR - National Gene Vector Laboratories (NGVLs) The National Gene Vector Laboratories (NGVLs), with core funding from NCRR, serve as a resource for researchers to obtain adequate quantities of clinical-grade vectors for human gene transfer protocols. The vector types include retrovirus, lentivirus, adenovirus, adeno-associated virus, herpes-virus, and DNA plasmids. The NGVLs consist of three vector production centers at: Baylor College of Medicine; City of Hope National Medical Center and Beckman Research Institute; and Indiana University, which also serves as the Coordinating Center for all the laboratories. Two additional laboratories conduct toxicology studies for NGVL-approved investigators. These laboratories are located at the Southern Research Institute and the University of Florida. Additional information about the process for requesting vector production and/or pharmacology/toxicology support should be directed to Ms. Lorraine Matheson, NGVL Project Coordinator, Indiana University School of Medicine. Phone: (317) 274-4519; fax: (317) 278-4518; e-mail: lrubin@iupui.edu. The NGVL Coordinating Center at Indiana University also hosts a Web site at http://www.ngvl.org. NCRR - General Clinical Research Centers (GCRCs) The General Clinical Research Centers (GCRCs) are a national network of 82 centers that provide optimal settings for medical investigators to conduct safe, controlled, state-of-the-art in-patient and out-patient studies of both children and adults. GCRCs also provide infrastructure and resources that support several career development opportunities. Investigators who have research project funding from the National Institutes of Health (NIH) and other peer-reviewed sources may apply to use GCRCs. Because the GCRCs support a full spectrum of patient-oriented scientific inquiry, researchers who use these centers can benefit from collaborative, multidisciplinary research opportunities. To request access to a GCRC facility, eligible investigators should initially contact a GCRC program director, listed in the National Center for Research Resources (NCRR) Clinical Research Resources Directory (www.ncrr.nih.gov/ncrrprog/clindir/crdirectory.asp). Further information can be obtained from Anthony R. Hayward, M.D., Director, Division for Clinical Research Resources, National Center for Research Resources at NIH. Phone: (301) 435-0790; e-mail: haywarda@ncrr.nih.gov.

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Resources currently available to the scientific community that may be of interest for endocrinology research are described briefly here. More information is available through The Endocrine Society Home Page (http://www.endo-society.org) or the information provided below. Human Tissue and Biologic Specimen Resources NCI - Cooperative Human Tissue Network (CHTN) The NCI Cooperative Human Tissue Network (CHTN) provides normal, benign, precancerous, and cancerous human tissue to the scientific community for biomedical research. Specimens are collected according to the investigator’s individual protocol. Information provided with the specimens includes routine histopathologic and demographic data. The CHTN can also provide a variety of tissue microarrays. Contact the CHTN Web site at http://www-chtn.ims.nci.nih.gov, or 1-866-GO2-CHTN (1-866-462-2486). NCI - Cooperative Breast Cancer Tissue Resource (CBCTR) The NCI Cooperative Breast Cancer Tissue Resource (CBCTR) can provide researchers with access to formalin-fixed, paraffin-embedded primary breast cancer specimens, with associated pathologic, clinical, and outcome data. All specimens are evaluated for pathologic diagnosis by CBCTR pathologists using standard diagnostic criteria. The collection is particularly well suited for validation studies of diagnostic and prognostic markers. The CBCTR also makes available breast cancer tissue microarrays designed by NCI statisticians to provide high statistical power for studies of stage-specific markers of breast cancer. Contact CBCTR’s Web site at http://cbctr.nci.nih.gov, or contact Steve Marroulis at Information Management Services, Inc.: telephone: (301) 680-9770; e-mail: marrouliss@imsweb.com. NCI - Cooperative Prostate Cancer Tissue Resource (CPCTR) The NCI Cooperative Prostate Cancer Tissue Resource (CPCTR) can provide access to over 4,000 cases of formalin-fixed, paraffin-embedded primary prostate cancer specimens, with associated pathology and clinical data. Fresh-frozen tissue is also available with limited clinical follow-up information. In addition, slides from prostate cancer tissue microarrays with associated pathology and clinical data are now available. Contact the CPCTR Web site at http://www.prostatetissues.org, or contact Steve Marroulis at Information Management Services, Inc.: telephone: (301) 680-9770; e-mail: marrouliss@imsweb.com. NCI - AIDS and Cancer Specimen Resource (ACSR) The AIDS and Cancer Specimen Resource (ACSR) provides qualified researchers with tissue, cell, blood, and fluid specimens, as well as clinical data from patients with AIDS and cancer. The specimens and clinical data are available for research studies, particularly those that translate basic research findings to clinical application. Contact the ACSR Web site (http://acsr.ucsf.edu/) or Dr. Kishor Bhatia, (301) 496-7147; e-mail: bhatiak@mail.nih.gov. NCI - Breast and Ovarian Cancer Family Registries (CFRs) The Breast and Ovarian CFRs facilitate and support interdisciplinary and population-based research on the identification and characterization of breast and ovarian cancer susceptibility genes, with particular emphasis on gene-gene and gene-environment interaction research. Available from the registries are: a) family history, epidemiologic and clinical data, b) updates on cancer recurrence, morbidity and mortality in participating families, and c) biospecimens, including plasma, lymphocytes, serum, DNA, Guthrie cards or buccal smears, and paraffin blocks of tumor tissue. For further information on these registries, contact the CFR Web site (http://epi.grants.cancer.gov/BCFR) or (301) 496-9600. NCI - Specimen Resource Locator The NCI Specimen Resource Locator (http://cancer.gov/specimens) is a database that helps researchers locate specimens for research. The database includes resources such as tissue banks and tissue procurement systems with access to normal, benign, precancerous, and/or cancerous human tissue covering a wide variety of organ sites. Researchers specify the types of specimens, number of cases, preservation methods, and associated data they require. The Locator will search the database and return a list of tissue resources most likely to meet their requirements. When no match is obtained, the researcher is referred to the NCI Tissue Expediter [(301) 496-7147; e-mail: tissexp@mail.nih.gov]. The Tissue Expediter is a scientist who can help match researchers with appropriate resources or identify appropriate collaborators when those are necessary. NIDDK - Biologic Samples from Diabetic Study Foundation A portion (1/3) of all stored nonrenewable samples (plasma, serum, urine) from subjects enrolled in the Diabetes Control and Complications Trial (DCCT) is available for use by the scientific community to address questions for which these samples may be invaluable. Announcements for using this resource appear in the NIH Guide for Grants and Contracts periodically. Inquiries may be addressed to: Catherine C. Cowie, Ph.D., Director, Diabetes Epidemiology Program, NIDDK, 6707 Democracy Blvd., Room 691, MSC 5460, National Institute of Diabetes and Digestive and Kidney Diseases, Bethesda, MD 20892-5460. Phone: (301) 594-8804; fax: (301) 480-3503; e-mail: cowiec@extra.niddk.nih.gov. NIDDK - NIDDK Central Repositories (Diabetes Prevention Study) The NIDDK Central Repositories have selected biosamples from the DPT-1 (The Diabetes Prevention Type 1) study that are available to qualified investigators through an application process. These samples are supplied for research purposes only, not for therapeutic, diagnostic, or commercial uses. Information about how to apply for these materials can be obtained from the NIDDK Central Repositories by contacting Ms. Helen Ray of RTI, 1-919-316-3418, or hmp@rti.org. Direct scientific-technical inquiry to the Project Officer of the NIDDK Central Repositories, Dr. Rebekah Rasooly, at phone: (301) 594-6007; e-mail: rr185i@nih.gov. Visit the Repositories Web site at http://www.niddkrepository.org. NICHD - Brain and Tissue Bank for Developmental Disorders The purpose of the Bank is to collect, preserve, and distribute human tissues to investigators interested in autism and developmental disorders; normal tissues may be available for other research purposes. Further information can be obtained at www.btbank.org. The contact persons are H. Ron Zielke or Sally Wisniewsky, University of Maryland (1-800-847-1539), and Carol Petito or Stephanie Lojko, University of Miami (1-800-592-7246). NICHD - Reproductive Tissue Sample Repository (RTSaR) The Reproductive Tissue Sample Repository (RTSaR) is a virtual repository with online tissue sample acquisition capabilities. The RTSaR provides investigators with real-time access to human and nonhuman primate tissue and fluid inventories from four tissue bank facilities that are supported through the Specialized Cooperative Centers Program in Reproduction Research. The tissue banks are located at the University of California, San Diego (human ovary bank), Stanford University (human endometrium and DNA bank), Johns Hopkins University (male reproductive tissues and fluids), and the Oregon National Primate Research Center (nonhuman primate tissues). The web site for the RTSaR is https://rtsar.nichd.nih.gov/rtsar/login. If you wish to access the RTSaR, you can request an id and password to access the system by contacting the network administrator at RTSaR@mail.nih.gov. Once you access the system, contact information for each bank is provided. Access is open to all investigators living in North America who are supported by research and research training grants from the NIH. One id and password will be provided to each principal investigator that can be utilized by any person working in the P.I.’s laboratory, or, in the case of institutional training grants (T32) and institutional career development award programs (K12), any person supported by the aforementioned awards. NCRR - Human Tissues and Organs Resource (HTOR) The Human Tissues and Organs Resource (HTOR) cooperative agreement supports a procurement network developed by the National Disease Research Interchange (NDRI), a not-for-profit organization. By collaborating with various medical centers, hospitals, pathology services, eye banks, tissue banks, and organ procurement organizations, HTOR provides a wide variety of human tissues and organs—both diseased and normal—to researchers for laboratory studies. Such samples include tissues from the central nervous system and brain, cardiovascular system, endocrine system, eyes, bone, and cartilage. For further information, consult the NDRI Web site (www.ndri.com) or contact Dr. John T. Lonsdale at NDRI, 8 Penn Center, 8th Floor, 1628 JFK Boulevard, Philadelphia, PA 19103. Phone: (800) 222-6374, ext. 271; fax: (215) 557-7154; e-mail: jlonsdale@ndriresource.org. The NDRI Web site is http://www.ndri.com. NCRR - Islet Cell Resource (ICR) With support from NCRR, 10 Islet Cell Resource (ICR) centers isolate, purify, and characterize human pancreatic islets for subsequent transplantation into patients with type I diabetes. The ICR centers procure whole pancreata and acquire relevant data about donors; improve islet isolation and purification techniques; distribute islets for use in approved clinical protocols; and perfect the methods of storage and shipping. In this way, the centers optimize the viability, function, and availability of islets and help clinical researchers capitalize on the recently reported successes in islet transplantation. Information on submitting requests for islet cells can be obtained from Mr. John Kaddis, ICR Coordinating Center Project Manager, City of Hope National Medical Center, 1500 E. Duarte Road, Duarte, California 91010. Phone (626) 359-8111, ext. 63377; fax: (626) 471-7106; e-mail: jkaddis@coh.org. The Coordinating Center hosts a Web site at http://icr.coh.org. NIA - SWAN Repository (longitudinal, multiethnic study of women at midlife including the menopausal transition) The SWAN Repository is a biologic specimen bank of the Study of Women’s Health Across the Nation (SWAN). The SWAN cohort was recruited in 1996/1997 and consists of 3302 African-American, Caucasian, Chinese, Hispanic, and Japanese women. The SWAN Repository contains more than 350,000 blood and urine specimens generated from the study participants’ annual visits (8 visits to date), at which time medical and health history, psychosocial measures, biological measures, and anthropometric data were and are being collected. In addition, a subset of the participants are providing urine samples, collected daily over the length of one menstrual cycle, each year. More than 900,000 of these samples are in the SWAN Repository and are available to researchers who wish to study the midlife and menopausal transition. Additionally, a DNA sample repository is also available and includes DNA as well as transformed B-lymphoblastoid cell lines from more than 1800 of the participants. To learn more about the SWAN Repository and how to apply to use SWAN Repository specimens, contact the Web site at http://www.swanrepository.com or Dr. MaryFran Sowers, University of Michigan, School of Public Health, Epidemiology Dept., (734) 936-3892; e-mail: mfsowers@umich.edu. Human and Animal Cell and Biologic Reagent Resources NIDDK - National Hormone and Peptide Program The National Hormone and Peptide Program (NHPP) offers peptide hormones and their antisera, tissues (rat hypothalami), and miscellaneous reagents to qualified investigators. These reagents are supplied for research purposes only, not for therapeutic, diagnostic, or commercial uses. These materials can be obtained from Dr. A. F. Parlow of the Harbor-UCLA Medical Center, Research and Education Institute, Torrance, CA. A more complete description of resources within this program is provided in The Endocrine Society journals. Direct scientific-technical inquiry to NHPP Scientific Director, Dr. Al Parlow, at phone: (310) 222-3537; fax: (310) 222-3432; e-mail: parlow@humc.edu. Visit the NHPP Web site at http://www.humc.edu/hormones. NICHD - National Hormone and Pituitary Program (see NIDDK listing) Following is a list of reagents currently available through the resources of NICHD: Androgen receptor and peptide antigen Recombinant monkey (cynomolgus) and baboon luteinizing hormone and follicle-stimulating hormone and antisera. NIA - Aging Cell Bank To facilitate aging research on cells in culture, the NIA provides support for the Aging Cell Bank located at the Coriell Institute for Medical Research in Camden, NJ. The Aged Cell Bank provides fibroblast, lymphoblastoid, and differentiated cell lines from a wide range of human age-related conditions and other mammalian species, as well as DNA from a limited subset of cell lines. For further information, the Aged Cell Bank catalog can be accessed at http://locus.umdnj.edu/nia or contact Dr. Donald Coppock at 1-800-752-3805. NCRR - Various Cell Repositories NCRR maintains the following cell repository resources: National Cell Culture Center, National Stem Cell Resource, and the Yeast Genetic Stock Center. Further information regarding these resources may be obtained through the NCRR Web site at: www.ncrr.nih.gov/ncrrprog/cmpdir/BIOLOG.asp. ANIMAL RESOURCES NIA - Aging Rodent Resources NIA maintains both rat and mouse colonies for use by the scientific community. The animals available range in age from 1 to 36 months. A repository of fresh-frozen tissue from the NIA aged rodent colonies is stocked with tissue from mouse and rat strains, including caloric-restricted BALB/c mice. The NIA also maintains a colony of calorically restricted rodents of selected genotypes, which are available to the scientific community. For further information, please refer to the Aged Rodent information handbook at http://www.nia.nih.gov/ResearchInformation/ScientificResources/AgedRodentColoniesHandbook/ or contact the Office of Biological Resources and Resource Development order desk. Phone: (301) 496-0181; fax: (301) 402-5597; e-mail: rodents@nia.nih.gov. NIA - Aged Rodent Tissue Bank The rodent tissue bank contains flash-frozen tissues from rodents in the NIA aged rodent colonies. Tissue is collected from rodents at 4 or 5 age points throughout the lifespan. Tissue arrays are also available. Information is available at http://www.nia.nih.gov/ResearchInformation/ScientificResources/AgedRodentTissueBankHandbook/. NCRR - Mutant Mouse Regional Resource Centers (MMRRC) The Mutant Mouse Regional Resource Center (MMRRC) Program consists of centers that collectively operate as a one-stop shop to serve the biomedical research community. Investigators who have created select mutant mouse models may donate their models to an MMRRC for broad dissemination to other investigators who request them for noncommercial research investigations related to human health, disease, and treatments. The NCRR Division of Comparative Medicine (DCM) supports the MMRRCs, which are electronically linked through the MMRRC Informatics Coordinating Center (ICC) to function as one facility. The ICC, located at The Jackson Laboratory in Bar Harbor, ME, provides database and other informatics support to the MMRRC to give the research community a single entry point to the program. Further information can be obtained from the Web site at http://www.mmrrc.org, or from Franziska Grieder, D.V.M., Ph.D., Division of Comparative Medicine, NCRR. Phone (301) 435-0744; fax: (301) 480-3819; e-mail: griederf@ncrr.nih.gov. NCRR - Induced Mutant Mouse Resource (IMR) The Induced Mutant Mouse Resource (IMR) at The Jackson Laboratory provides researchers with genetically engineered mice (transgenic, targeted mutant, retroviral insertional mutant, and chemically induced mutant mice). The function of the IMR is to select, import, cryopreserve, maintain, and distribute these important strains of mice to the research community. To improve their value for research, the IMR also undertakes genetic development of stocks, such as transferring mutant genes or transgenes to defined genetic backgrounds and combining transgenes and/or targeted mutations to create new mouse models for research. Over 800 mutant stocks have been accepted by the IMR. Current holdings include models for research on cancer, immunological and inflammatory diseases, neurological diseases and behavioral disorders, cardiovascular diseases, developmental disorders, metabolic and other diseases, reporter (e.g. GFP) and recombinase (e.g. cre/loxP) strains. About 8 strains a month are being added to the IMR holdings. A list of all strains may be obtained from the IMR Web site: www.jax.org/resources/documents/imr/. Online submission forms are also available on that site. All mice can be ordered by calling The Jackson Laboratory’s Customer Service Department at 1-800-422-MICE or (207) 288-5845 or by faxing (207) 288-6150. NIDDK - Mouse Metabolic Phenotyping Centers The mission of the Mouse Metabolic Phenotyping Centers is to provide the scientific community with standardized, high-quality metabolic and physiologic phenotyping services for mouse models of diabetes, diabetic complications, obesity, and related disorders. Researchers can ship mice to one of the four Centers (University of Cincinnati, University of Texas Southwestern Medical Center, Vanderbilt University, and Yale University) and obtain on a fee-for-service basis a range of complex exams used to characterize mouse metabolism, blood composition, energy balance, eating and exercise, organ function and morphology, physiology, and histology. Many tests are done in living animals and are designed to elucidate the subtle hallmarks of metabolic disease. Information, including a complete list of available tests, can be found at www.mmpc.org, or contact Dr. Maren R. Laughlin, NIDDK, at (301) 594-8802; e-mail: Maren.Laughlin@nih.gov; or Dr. Kristin Abraham, NIDDK, at (301) 451-8048; e-mail: abrahamk@extra.niddk.nih.gov. NCRR - National Primate Research Centers (NPRCs) National Primate Research Centers (NPRCs) are a network of eight highly specialized facilities for nonhuman primates (NHP) research. Funded by grants through NCRR’s Division of Comparative Medicine (DCM), each center, staffed with experienced research and support staff, provides the appropriate research environment to foster the development of NHP models of human health and disease for biomedical investigations. The NPRCs are affiliated with academic institutions and are accessible to eligible biomedical and behavioral investigators supported by research project grants from the National Institutes of Health and other sources. Further information may be obtained from the notice, Procedures for Accessing Regional Primate Research Centers, published in the NIH Guide for Grants and Contracts at http://grants2.nih.gov/grants/guide/notice-files/not97-014.html, or from John Harding, Ph.D., National Primate Research Centers and AIDS Animal Models Program, Division of Comparative Medicine, NCRR. Phone: (301) 435-0744; fax: (301) 480-3819; e-mail: hardingj@mail.nih.gov. NIA - Nonhuman Primates, Aging Set-Aside Colony NIA maintains approximately 200 nonhuman primates (M. mulatta) at four National Primate Research Centers (see above) for conducting research on aging. These animals range in age from 18 to 35 years. While these animals are predominantly reserved for non-invasive research, exceptions can be made to this policy. For further information, please contact Dr. Nancy Nadon, Office of Biological Resources and Resource Development, NIA. Phone: (301) 402-7744; fax: (301) 402-0010; e-mail: nadonn@nia.nih.gov. NIA - Nonhuman Primate (NHP) Tissue Bank and Aging Database The NIA developed two new resources to facilitate research in the NHP model. The NHP tissue bank contains fresh-frozen and fixed tissue donated by primate centers around the country. Information is available at http://www.nia.nih.gov/ResearchInformation/ScientificResources/NHPTissueBankHandbook.htm. The Primate Aging Database provides an internet accessible database with data from thousands of primates around the country. It can be used to investigate the effect of age on a variety of parameters, predominantly blood chemistry and husbandry measurements. The site is password protected. The URL is http://ipad.primate.wisc.edu. NIA - Obesity, Diabetes and Aging Animal Resource (USF-ODARC) The NIA supports a colony of aged rhesus macaques, many of which are obese and/or diabetic. This is a long-term colony of monkeys housed at the University of South Florida’s Obesity, Diabetes and Aging Research Center. They have been extensively and longitudinally characterized for general health variables, blood chemistry, food intake, and body weight. Diabetic monkeys are tested daily for urine glucose and ketone levels, and prediabetic monkeys are tested weekly. Data for some of the monkeys extend as far back as 15 years. This unique resource is available for collaborative studies. ODARC has a significant amount of stored tissue collected at necropsy and stored blood/plasma collected longitudinally. Serial blood collection or tissue collection at necropsy can also be performed prospectively. Testing and imaging can also be performed on the monkeys. Inquiries regarding collaborative studies using the ODARC colony should be directed to: Barbara C. Hansen, Ph.D., Director, Obesity, Diabetes and Aging Research Center, University of South Florida, All Children’s Hospital, 801 6th Street South #9340, St. Petersburg, FL 33701. Phone: (727) 767-6993; fax: (727) 767-7443; e-mail: bchansen@aol.com. NCRR - Various Animal Resources NCRR maintains the following animal resources: Animal Models and Genetic Stocks, Chimpanzee Biomedical Research Program, NIH Animal Genetic Resource, and the Specific Pathogen Free Macaque Breeding and Research Program. Further information regarding these and other resources may be obtained through the NCRR Web site at www.ncrr.nih.gov/comparative_med.asp. In Silico Resources NIDDK, NHLBI, and NIEHS - Nuclear Receptor Signaling Atlas The Nuclear Receptor Signaling Atlas (NURSA) has created an in silico resource comprised of curated information about Nuclear Receptors, Coregulators, Ligands, and Downstream Targets. NURSA is sponsored by NIH and provides online access through a public webportal at www.NURSA.org. Ease of navigation through a series of molecule pages allows users to make queries about Nuclear Receptors, Coactivators and Corepressors. Additional information about nuclear receptor ligands is provided, as well as primary datasets relating to expression profiling of nuclear receptors, coregulators and downstream targets. The molecule pages are hyperlinked to data contained in external databases, including NCBI, KEGG, UniProt, and others, allowing for detailed data mining. In partnership with The Endocrine Society, NURSA and Molecular Endocrinology (http://mend.endojournals.org/) have reciprocal links designed to enhance publications in Molecular Endocrinology and the information available through the NURSA molecule pages. Links to additional relevant literature citations are from PubMed at the National Library of Medicine. Miscellaneous Resources NCRR - National Gene Vector Laboratories (NGVLs) The National Gene Vector Laboratories (NGVLs), with core funding from NCRR, serve as a resource for researchers to obtain adequate quantities of clinical-grade vectors for human gene transfer protocols. The vector types include retrovirus, lentivirus, adenovirus, adeno-associated virus, herpes-virus, and DNA plasmids. The NGVLs consist of three vector production centers at: Baylor College of Medicine; City of Hope National Medical Center and Beckman Research Institute; and Indiana University, which also serves as the Coordinating Center for all the laboratories. Two additional laboratories conduct toxicology studies for NGVL-approved investigators. These laboratories are located at the Southern Research Institute and the University of Florida. Additional information about the process for requesting vector production and/or pharmacology/toxicology support should be directed to Ms. Lorraine Matheson, NGVL Project Coordinator, Indiana University School of Medicine. Phone: (317) 274-4519; fax: (317) 278-4518; e-mail: lrubin@iupui.edu. The NGVL Coordinating Center at Indiana University also hosts a Web site at http://www.ngvl.org. NCRR - General Clinical Research Centers (GCRCs) The General Clinical Research Centers (GCRCs) are a national network of 82 centers that provide optimal settings for medical investigators to conduct safe, controlled, state-of-the-art in-patient and out-patient studies of both children and adults. GCRCs also provide infrastructure and resources that support several career development opportunities. Investigators who have research project funding from the National Institutes of Health (NIH) and other peer-reviewed sources may apply to use GCRCs. Because the GCRCs support a full spectrum of patient-oriented scientific inquiry, researchers who use these centers can benefit from collaborative, multidisciplinary research opportunities. To request access to a GCRC facility, eligible investigators should initially contact a GCRC program director, listed in the National Center for Research Resources (NCRR) Clinical Research Resources Directory (www.ncrr.nih.gov/ncrrprog/clindir/crdirectory.asp). Further information can be obtained from Anthony R. Hayward, M.D., Director, Division for Clinical Research Resources, National Center for Research Resources at NIH. Phone: (301) 435-0790; e-mail: haywarda@ncrr.nih.gov.

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Resources currently available to the scientific community that may be of interest for endocrinology research are described briefly here. More information is available through The Endocrine Society Home Page (http://www.endo-society.org) or the information provided below. Human Tissue and Biologic Specimen Resources NCI - Cooperative Human Tissue Network (CHTN) The NCI Cooperative Human Tissue Network (CHTN) provides normal, benign, precancerous, and cancerous human tissue to the scientific community for biomedical research. Specimens are collected according to the investigator’s individual protocol. Information provided with the specimens includes routine histopathologic and demographic data. The CHTN can also provide a variety of tissue microarrays. Contact the CHTN Web site at http://www-chtn.ims.nci.nih.gov, or 1-866-GO2-CHTN (1-866-462-2486). NCI - Cooperative Breast Cancer Tissue Resource (CBCTR) The NCI Cooperative Breast Cancer Tissue Resource (CBCTR) can provide researchers with access to formalin-fixed, paraffin-embedded primary breast cancer specimens, with associated pathologic, clinical, and outcome data. All specimens are evaluated for pathologic diagnosis by CBCTR pathologists using standard diagnostic criteria. The collection is particularly well suited for validation studies of diagnostic and prognostic markers. The CBCTR also makes available breast cancer tissue microarrays designed by NCI statisticians to provide high statistical power for studies of stage-specific markers of breast cancer. Contact CBCTR’s Web site at http://cbctr.nci.nih.gov, or contact Steve Marroulis at Information Management Services, Inc.: telephone: (301) 680-9770; e-mail: marrouliss@imsweb.com NCI - Cooperative Prostate Cancer Tissue Resource (CPCTR) The NCI Cooperative Prostate Cancer Tissue Resource (CPCTR) can provide access to over 4,000 cases of formalin-fixed, paraffin-embedded primary prostate cancer specimens, with associated pathology and clinical data. Fresh-frozen tissue is also available with limited clinical follow-up information. In addition, slides from prostate cancer tissue microarrays with associated pathology and clinical data are now available. Contact the CPCTR Web site at http://www.prostatetissues.org, or contact Steve Marroulis at Information Management Services, Inc.: telephone: (301) 680-9770; e-mail: marrouliss@imsweb.com NCI - AIDS and Cancer Specimen Resource (ACSR) The AIDS and Cancer Specimen Resource (ACSR) provides qualified researchers with tissue, cell, blood, and fluid specimens, as well as clinical data from patients with AIDS and cancer. The specimens and clinical data are available for research studies, particularly those that translate basic research findings to clinical application. Contact the ACSR Web site (http://acsr.ucsf.edu/) or Dr. Kishor Bhatia, (301) 496-7147; e-mail: bhatiak@mail.nih.gov NCI - Breast and Ovarian Cancer Family Registries (CFRs) The Breast and Ovarian CFRs facilitate and support interdisciplinary and population-based research on the identification and characterization of breast and ovarian cancer susceptibility genes, with particular emphasis on gene-gene and gene-environment interaction research. Available from the registries are: a) family history, epidemiologic and clinical data, b) updates on cancer recurrence, morbidity and mortality in participating families, and c) biospecimens, including plasma, lymphocytes, serum, DNA, Guthrie cards or buccal smears, and paraffin blocks of tumor tissue. For further information on these registries, contact the CFR Web site (http://epi.grants.cancer.gov/BCFR) or (301) 496-9600. NCI - Specimen Resource Locator The NCI Specimen Resource Locator (http://cancer.gov/specimens) is a database that helps researchers locate specimens for research. The database includes resources such as tissue banks and tissue procurement systems with access to normal, benign, precancerous, and/or cancerous human tissue covering a wide variety of organ sites. Researchers specify the types of specimens, number of cases, preservation methods, and associated data they require. The Locator will search the database and return a list of tissue resources most likely to meet their requirements. When no match is obtained, the researcher is referred to the NCI Tissue Expediter [(301) 496-7147; e-mail: tissexp@mail.nih.gov]. The Tissue Expediter is a scientist who can help match researchers with appropriate resources or identify appropriate collaborators when those are necessary. NIDDK - Biologic Samples from Diabetic Study Foundation A portion (1/3) of all stored nonrenewable samples (plasma, serum, urine) from subjects enrolled in the Diabetes Control and Complications Trial (DCCT) is available for use by the scientific community to address questions for which these samples may be invaluable. Announcements for using this resource appear in the NIH Guide for Grants and Contracts periodically. Inquiries may be addressed to: Catherine C. Cowie, Ph.D., Director, Diabetes Epidemiology Program, NIDDK, 6707 Democracy Blvd., Room 691, MSC 5460, National Institute of Diabetes and Digestive and Kidney Diseases, Bethesda, MD 20892-5460. Phone: (301) 594-8804; fax: (301) 480-3503; e-mail: cowiec@extra.niddk.nih.gov NIDDK - NIDDK Central Repositories (Diabetes Prevention Study) The NIDDK Central Repositories have selected biosamples from the DPT-1 (The Diabetes Prevention Type 1) study that are available to qualified investigators through an application process. These samples are supplied for research purposes only, not for therapeutic, diagnostic, or commercial uses. Information about how to apply for these materials can be obtained from the NIDDK Central Repositories by contacting Ms. Helen Ray of RTI, 1-919-316-3418, or hmp@rti.org Direct scientific-technical inquiry to the Project Officer of the NIDDK Central Repositories, Dr. Rebekah Rasooly, at phone: (301) 594-6007; e-mail: rr185i@nih.gov Visit the Repositories Web site at http://www.niddkrepository.org. NICHD - Brain and Tissue Bank for Developmental Disorders The purpose of the Bank is to collect, preserve, and distribute human tissues to investigators interested in autism and developmental disorders; normal tissues may be available for other research purposes. Further information can be obtained at www.btbank.org. The contact persons are H. Ron Zielke or Sally Wisniewsky, University of Maryland (1-800-847-1539), and Carol Petito or Stephanie Lojko, University of Miami (1-800-592-7246). NICHD - Reproductive Tissue Sample Repository (RTSaR) The Reproductive Tissue Sample Repository (RTSaR) is a virtual repository with online tissue sample acquisition capabilities. The RTSaR provides investigators with real-time access to human and nonhuman primate tissue and fluid inventories from four tissue bank facilities that are supported through the Specialized Cooperative Centers Program in Reproduction Research. The tissue banks are located at the University of California, San Diego (human ovary bank), Stanford University (human endometrium and DNA bank), Johns Hopkins University (male reproductive tissues and fluids), and the Oregon National Primate Research Center (nonhuman primate tissues). The web site for the RTSaR is https://rtsar.nichd.nih.gov/rtsar/login. If you wish to access the RTSaR, you can request an id and password to access the system by contacting the network administrator at RTSaR@mail.nih.gov Once you access the system, contact information for each bank is provided. Access is open to all investigators living in North America who are supported by research and research training grants from the NIH. One id and password will be provided to each principal investigator that can be utilized by any person working in the P.I.’s laboratory, or, in the case of institutional training grants (T32) and institutional career development award programs (K12), any person supported by the aforementioned awards. NCRR - Human Tissues and Organs Resource (HTOR) The Human Tissues and Organs Resource (HTOR) cooperative agreement supports a procurement network developed by the National Disease Research Interchange (NDRI), a not-for-profit organization. By collaborating with various medical centers, hospitals, pathology services, eye banks, tissue banks, and organ procurement organizations, HTOR provides a wide variety of human tissues and organs—both diseased and normal—to researchers for laboratory studies. Such samples include tissues from the central nervous system and brain, cardiovascular system, endocrine system, eyes, bone, and cartilage. For further information, consult the NDRI Web site (www.ndri.com) or contact Dr. John T. Lonsdale at NDRI, 8 Penn Center, 8th Floor, 1628 JFK Boulevard, Philadelphia, PA 19103. Phone: (800) 222-6374, ext. 271; fax: (215) 557-7154; e-mail: jlonsdale@ndriresource.org The NDRI Web site is http://www.ndri.com. NCRR - Islet Cell Resource (ICR) With support from NCRR, 10 Islet Cell Resource (ICR) centers isolate, purify, and characterize human pancreatic islets for subsequent transplantation into patients with type I diabetes. The ICR centers procure whole pancreata and acquire relevant data about donors; improve islet isolation and purification techniques; distribute islets for use in approved clinical protocols; and perfect the methods of storage and shipping. In this way, the centers optimize the viability, function, and availability of islets and help clinical researchers capitalize on the recently reported successes in islet transplantation. Information on submitting requests for islet cells can be obtained from Mr. John Kaddis, ICR Coordinating Center Project Manager, City of Hope National Medical Center, 1500 E. Duarte Road, Duarte, California 91010. Phone (626) 359-8111, ext. 63377; fax: (626) 471-7106; e-mail: jkaddis@coh.org The Coordinating Center hosts a Web site at http://icr.coh.org. NIA - SWAN Repository (longitudinal, multiethnic study of women at midlife including the menopausal transition) The SWAN Repository is a biologic specimen bank of the Study of Women’s Health Across the Nation (SWAN). The SWAN cohort was recruited in 1996/1997 and consists of 3302 African-American, Caucasian, Chinese, Hispanic, and Japanese women. The SWAN Repository contains more than 350,000 blood and urine specimens generated from the study participants’ annual visits (8 visits to date), at which time medical and health history, psychosocial measures, biological measures, and anthropometric data were and are being collected. In addition, a subset of the participants are providing urine samples, collected daily over the length of one menstrual cycle, each year. More than 900,000 of these samples are in the SWAN Repository and are available to researchers who wish to study the midlife and menopausal transition. Additionally, a DNA sample repository is also available and includes DNA as well as transformed B-lymphoblastoid cell lines from more than 1800 of the participants. To learn more about the SWAN Repository and how to apply to use SWAN Repository specimens, contact the Web site at http://www.swanrepository.com or Dr. MaryFran Sowers, University of Michigan, School of Public Health, Epidemiology Dept., (734) 936-3892; e-mail: mfsowers@umich.edu Human and Animal Cell and Biologic Reagent Resources NIDDK - National Hormone and Peptide Program The National Hormone and Peptide Program (NHPP) offers peptide hormones and their antisera, tissues (rat hypothalami), and miscellaneous reagents to qualified investigators. These reagents are supplied for research purposes only, not for therapeutic, diagnostic, or commercial uses. These materials can be obtained from Dr. A. F. Parlow of the Harbor-UCLA Medical Center, Research and Education Institute, Torrance, CA. A more complete description of resources within this program is provided in The Endocrine Society journals. Direct scientific-technical inquiry to NHPP Scientific Director, Dr. Al Parlow, at phone: (310) 222-3537; fax: (310) 222-3432; e-mail: parlow@humc.edu Visit the NHPP Web site at http://www.humc.edu/hormones. NICHD - National Hormone and Pituitary Program (see NIDDK listing) Following is a list of reagents currently available through the resources of NICHD: Androgen receptor and peptide antigenRecombinant monkey (cynomolgus) and baboon luteinizing hormone and follicle-stimulating hormone and antisera. NIA - Aging Cell Bank To facilitate aging research on cells in culture, the NIA provides support for the Aging Cell Bank located at the Coriell Institute for Medical Research in Camden, NJ. The Aged Cell Bank provides fibroblast, lymphoblastoid, and differentiated cell lines from a wide range of human age-related conditions and other mammalian species, as well as DNA from a limited subset of cell lines. For further information, the Aged Cell Bank catalog can be accessed at http://locus.umdnj.edu/nia or contact Dr. Donald Coppock at 1-800-752-3805. NCRR - Various Cell Repositories NCRR maintains the following cell repository resources: National Cell Culture Center, National Stem Cell Resource, and the Yeast Genetic Stock Center. Further information regarding these resources may be obtained through the NCRR Web site at: www.ncrr.nih.gov/ncrrprog/cmpdir/BIOLOG.asp. Animal Resources NIA - Aging Rodent Resources NIA maintains both rat and mouse colonies for use by the scientific community. The animals available range in age from 1 to 36 months. A repository of fresh-frozen tissue from the NIA aged rodent colonies is stocked with tissue from mouse and rat strains, including caloric-restricted BALB/c mice. The NIA also maintains a colony of calorically restricted rodents of selected genotypes, which are available to the scientific community. For further information, please refer to the Aged Rodent information handbook at http://www.nia.nih.gov/ResearchInformation/ScientificResources/AgedRodentColoniesHandbook/ or contact the Office of Biological Resources and Resource Development order desk. Phone: (301) 496-0181; fax: (301) 402-5597; e-mail: rodents@nia.nih.gov NIA - Aged Rodent Tissue Bank The rodent tissue bank contains flash-frozen tissues from rodents in the NIA aged rodent colonies. Tissue is collected from rodents at 4 or 5 age points throughout the lifespan. Tissue arrays are also available. Information is available at http://www.nia.nih.gov/ResearchInformation/ScientificResources/AgedRodentTissueBankHandbook/. NCRR - Mutant Mouse Regional Resource Centers (MMRRC) The Mutant Mouse Regional Resource Center (MMRRC) Program consists of centers that collectively operate as a one-stop shop to serve the biomedical research community. Investigators who have created select mutant mouse models may donate their models to an MMRRC for broad dissemination to other investigators who request them for noncommercial research investigations related to human health, disease, and treatments. The NCRR Division of Comparative Medicine (DCM) supports the MMRRCs, which are electronically linked through the MMRRC Informatics Coordinating Center (ICC) to function as one facility. The ICC, located at The Jackson Laboratory in Bar Harbor, ME, provides database and other informatics support to the MMRRC to give the research community a single entry point to the program. Further information can be obtained from the Web site at http://www.mmrrc.org, or from Franziska Grieder, D.V.M., Ph.D., Division of Comparative Medicine, NCRR. Phone (301) 435-0744; fax: (301) 480-3819; e-mail: griederf@ncrr.nih.gov NCRR - Induced Mutant Mouse Resource (IMR) The Induced Mutant Mouse Resource (IMR) at The Jackson Laboratory provides researchers with genetically engineered mice (transgenic, targeted mutant, retroviral insertional mutant, and chemically induced mutant mice). The function of the IMR is to select, import, cryopreserve, maintain, and distribute these important strains of mice to the research community. To improve their value for research, the IMR also undertakes genetic development of stocks, such as transferring mutant genes or transgenes to defined genetic backgrounds and combining transgenes and/or targeted mutations to create new mouse models for research. Over 800 mutant stocks have been accepted by the IMR. Current holdings include models for research on cancer, immunological and inflammatory diseases, neurological diseases and behavioral disorders, cardiovascular diseases, developmental disorders, metabolic and other diseases, reporter (e.g. GFP) and recombinase (e.g. cre/loxP) strains. About 8 strains a month are being added to the IMR holdings. A list of all strains may be obtained from the IMR Web site: www.jax.org/resources/documents/imr/. Online submission forms are also available on that site. All mice can be ordered by calling The Jackson Laboratory’s Customer Service Department at 1-800-422-MICE or (207) 288-5845 or by faxing (207) 288-6150. NIDDK - Mouse Metabolic Phenotyping Centers The mission of the Mouse Metabolic Phenotyping Centers is to provide the scientific community with standardized, high-quality metabolic and physiologic phenotyping services for mouse models of diabetes, diabetic complications, obesity, and related disorders. Researchers can ship mice to one of the four Centers (University of Cincinnati, University of Texas Southwestern Medical Center, Vanderbilt University, and Yale University) and obtain on a fee-for-service basis a range of complex exams used to characterize mouse metabolism, blood composition, energy balance, eating and exercise, organ function and morphology, physiology, and histology. Many tests are done in living animals and are designed to elucidate the subtle hallmarks of metabolic disease. Information, including a complete list of available tests, can be found at www.mmpc.org, or contact Dr. Maren R. Laughlin, NIDDK, at (301) 594-8802; e-mail: Maren.Laughlin@nih.gov NCRR - National Primate Research Centers (NPRCs) National Primate Research Centers (NPRCs) are a network of eight highly specialized facilities for nonhuman primates (NHP) research. Funded by grants through NCRR’s Division of Comparative Medicine (DCM), each center, staffed with experienced research and support staff, provides the appropriate research environment to foster the development of NHP models of human health and disease for biomedical investigations. The NPRCs are affiliated with academic institutions and are accessible to eligible biomedical and behavioral investigators supported by research project grants from the National Institutes of Health and other sources. Further information may be obtained from the notice, Procedures for Accessing Regional Primate Research Centers, published in the NIH Guide for Grants and Contracts at http://grants2.nih.gov/grants/guide/notice-files/not97-014.html, or from John Harding, Ph.D., National Primate Research Centers and AIDS Animal Models Program, Division of Comparative Medicine, NCRR. Phone: (301) 435-0744; fax: (301) 480-3819; e-mail: hardingj@mail.nih.gov NIA - Nonhuman Primates, Aging Set-Aside Colony NIA maintains approximately 200 nonhuman primates (M. mulatta) at four National Primate Research Centers (see above) for conducting research on aging. These animals range in age from 18 to 35 years. While these animals are predominantly reserved for non-invasive research, exceptions can be made to this policy. For further information, please contact Dr. Nancy Nadon, Office of Biological Resources and Resource Development, NIA. Phone: (301) 402-7744; fax: (301) 402-0010; e-mail: nadonn@nia.nih.gov NIA - Nonhuman Primate (NHP) Tissue Bank and Aging Database The NIA developed two new resources to facilitate research in the NHP model. The NHP tissue bank contains fresh-frozen and fixed tissue donated by primate centers around the country. Information is available at http://www.nia.nih.gov/ResearchInformation/ScientificResources/NHPTissueBankHandbook.htm. The Primate Aging Database provides an internet accessible database with data from thousands of primates around the country. It can be used to investigate the effect of age on a variety of parameters, predominantly blood chemistry and husbandry measurements. The site is password protected. The URL is http://ipad.primate.wisc.edu. NIA - Obesity, Diabetes and Aging Animal Resource (USF-ODARC) The NIA supports a colony of aged rhesus macaques, many of which are obese and/or diabetic. This is a long-term colony of monkeys housed at the University of South Florida’s Obesity, Diabetes and Aging Research Center. They have been extensively and longitudinally characterized for general health variables, blood chemistry, food intake, and body weight. Diabetic monkeys are tested daily for urine glucose and ketone levels, and prediabetic monkeys are tested weekly. Data for some of the monkeys extend as far back as 15 years. This unique resource is available for collaborative studies. ODARC has a significant amount of stored tissue collected at necropsy and stored blood/plasma collected longitudinally. Serial blood collection or tissue collection at necropsy can also be performed prospectively. Testing and imaging can also be performed on the monkeys. Inquiries regarding collaborative studies using the ODARC colony should be directed to: Barbara C. Hansen, Ph.D., Director, Obesity, Diabetes and Aging Research Center, University of South Florida, All Children’s Hospital, 801 6th Street South #9340, St. Petersburg, FL 33701. Phone: (727) 767-6993; fax: (727) 767-7443; e-mail: bchansen@aol.com NCRR - Various Animal Resources NCRR maintains the following animal resources: Animal Models and Genetic Stocks, Chimpanzee Biomedical Research Program, NIH Animal Genetic Resource, and the Specific Pathogen Free Macaque Breeding and Research Program. Further information regarding these and other resources may be obtained through the NCRR Web site at www.ncrr.nih.gov/comparative_med.asp. In Silico Resources NIDDK, NHLBI, and NIEHS - Nuclear Receptor Signaling Atlas The Nuclear Receptor Signaling Atlas (NURSA) has created an in silico resource comprised of curated information about Nuclear Receptors, Coregulators, Ligands, and Downstream Targets. NURSA is sponsored by NIH and provides online access through a public webportal at www.NURSA.org. Ease of navigation through a series of molecule pages allows users to make queries about Nuclear Receptors, Coactivators and Corepressors. Additional information about nuclear receptor ligands is provided, as well as primary datasets relating to expression profiling of nuclear receptors, coregulators and downstream targets. The molecule pages are hyperlinked to data contained in external databases, including NCBI, KEGG, UniProt, and others, allowing for detailed data mining. In partnership with The Endocrine Society, NURSA and Molecular Endocrinology (http://mend.endojournals.org/) have reciprocal links designed to enhance publications in Molecular Endocrinology and the information available through the NURSA molecule pages. Links to additional relevant literature citations are from PubMed at the National Library of Medicine. Miscellaneous Resources NCRR - National Gene Vector Laboratories (NGVLs) The National Gene Vector Laboratories (NGVLs), with core funding from NCRR, serve as a resource for researchers to obtain adequate quantities of clinical-grade vectors for human gene transfer protocols. The vector types include retrovirus, lentivirus, adenovirus, adeno-associated virus, herpes-virus, and DNA plasmids. The NGVLs consist of three vector production centers at: Baylor College of Medicine; City of Hope National Medical Center and Beckman Research Institute; and Indiana University, which also serves as the Coordinating Center for all the laboratories. Two additional laboratories conduct toxicology studies for NGVL-approved investigators. These laboratories are located at the Southern Research Institute and the University of Florida. Additional information about the process for requesting vector production and/or pharmacology/toxicology support should be directed to Ms. Lorraine Matheson, NGVL Project Coordinator, Indiana University School of Medicine. Phone: (317) 274-4519; fax: (317) 278-4518; e-mail: lrubin@iupui.edu The NGVL Coordinating Center at Indiana University also hosts a Web site at http://www.ngvl.org. NCRR - General Clinical Research Centers (GCRCs) The General Clinical Research Centers (GCRCs) are a national network of 82 centers that provide optimal settings for medical investigators to conduct safe, controlled, state-of-the-art in-patient and out-patient studies of both children and adults. GCRCs also provide infrastructure and resources that support several career development opportunities. Investigators who have research project funding from the National Institutes of Health (NIH) and other peer-reviewed sources may apply to use GCRCs. Because the GCRCs support a full spectrum of patient-oriented scientific inquiry, researchers who use these centers can benefit from collaborative, multidisciplinary research opportunities. To request access to a GCRC facility, eligible investigators should initially contact a GCRC program director, listed in the National Center for Research Resources (NCRR) Clinical Research Resources Directory (www.ncrr.nih.gov/ncrrprog/clindir/crdirectory.asp). Further information can be obtained from Anthony R. Hayward, M.D., Director, Division for Clinical Research Resources, National Center for Research Resources at NIH. Phone: (301) 435-0790; e-mail: haywarda@ncrr.nih.gov

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Abstract:

Resources currently available to the scientific community that may be of interest for endocrinology research are described briefly here. More information is available through The Endocrine Society Home Page (http://www.endo-society.org) or the information provided below. HUMAN TISSUE AND BIOLOGIC SPECIMEN RESOURCES NCI - Cooperative Human Tissue Network (CHTN) The NCI Cooperative Human Tissue Network (CHTN) provides normal, benign, precancerous, and cancerous human tissue to the scientific community for biomedical research. Specimens are collected according to the investigator’s individual protocol. Information provided with the specimens includes routine histopathologic and demographic data. The CHTN can also provide a variety of tissue microarrays. Contact the CHTN Web site at http://www-chtn.ims.nci.nih.gov, or 1-866-GO2-CHTN (1-866-462-2486). NCI - Cooperative Breast Cancer Tissue Resource (CBCTR) The NCI Cooperative Breast Cancer Tissue Resource (CBCTR) can provide researchers with access to formalin-fixed, paraffin-embedded primary breast cancer specimens, with associated pathologic, clinical, and outcome data. All specimens are evaluated for pathologic diagnosis by CBCTR pathologists using standard diagnostic criteria. The collection is particularly well suited for validation studies of diagnostic and prognostic markers. The CBCTR also makes available breast cancer tissue microarrays designed by NCI statisticians to provide high statistical power for studies of stage-specific markers of breast cancer. Contact CBCTR’s Web site at http://cbctr.nci.nih.gov, or contact Steve Marroulis at Information Management Services, Inc.: telephone: (301) 680-9770; e-mail: marrouliss@imsweb.com. NCI - Cooperative Prostate Cancer Tissue Resource (CPCTR) The NCI Cooperative Prostate Cancer Tissue Resource (CPCTR) can provide access to over 4,000 cases of formalin-fixed, paraffin-embedded primary prostate cancer specimens, with associated pathology and clinical data. Fresh-frozen tissue is also available with limited clinical follow-up information. In addition, slides from prostate cancer tissue microarrays with associated pathology and clinical data are now available. Contact the CPCTR Web site at http://www.prostatetissues.org, or contact Steve Marroulis at Information Management Services, Inc.: telephone: (301) 680-9770; e-mail: marrouliss@imsweb.com. NCI - AIDS and Cancer Specimen Resource (ACSR) The AIDS and Cancer Specimen Resource (ACSR) provides qualified researchers with tissue, cell, blood, and fluid specimens, as well as clinical data from patients with AIDS and cancer. The specimens and clinical data are available for research studies, particularly those that translate basic research findings to clinical application. Contact the ACSR Web site (http://acsr.ucsf.edu/) or Dr. Kishor Bhatia, (301) 496-7147; e-mail: bhatiak@mail.nih.gov. NCI - Breast and Ovarian Cancer Family Registries (CFRs) The Breast and Ovarian CFRs facilitate and support interdisciplinary and population-based research on the identification and characterization of breast and ovarian cancer susceptibility genes, with particular emphasis on gene-gene and gene-environment interaction research. Available from the registries are: a) family history, epidemiologic and clinical data, b) updates on cancer recurrence, morbidity and mortality in participating families, and c) biospecimens, including plasma, lymphocytes, serum, DNA, Guthrie cards or buccal smears, and paraffin blocks of tumor tissue. For further information on these registries, contact the CFR Web site (http://epi.grants.cancer.gov/BCFR) or (301) 496-9600. NCI - Specimen Resource Locator The NCI Specimen Resource Locator (http://cancer.gov/specimens) is a database that helps researchers locate specimens for research. The database includes resources such as tissue banks and tissue procurement systems with access to normal, benign, precancerous, and/or cancerous human tissue covering a wide variety of organ sites. Researchers specify the types of specimens, number of cases, preservation methods, and associated data they require. The Locator will search the database and return a list of tissue resources most likely to meet their requirements. When no match is obtained, the researcher is referred to the NCI Tissue Expediter [(301) 496-7147; e-mail: tissexp@mail.nih.gov]. The Tissue Expediter is a scientist who can help match researchers with appropriate resources or identify appropriate collaborators when those are necessary. NIDDK - Biologic Samples from Diabetic Study Foundation A portion (1/3) of all stored nonrenewable samples (plasma, serum, urine) from subjects enrolled in the Diabetes Control and Complications Trial (DCCT) is available for use by the scientific community to address questions for which these samples may be invaluable. Announcements for using this resource appear in the NIH Guide for Grants and Contracts periodically. Inquiries may be addressed to: Catherine C. Cowie, Ph.D., Director, Diabetes Epidemiology Program, NIDDK, 6707 Democracy Blvd., Room 691, MSC 5460, National Institute of Diabetes and Digestive and Kidney Diseases, Bethesda, MD 20892-5460. Phone: (301) 594-8804; fax: (301) 480-3503; e-mail: cowiec@extra.niddk.nih.gov. NIDDK - NIDDK Central Repositories (Diabetes Prevention Study) The NIDDK Central Repositories have selected biosamples from the DPT-1 (The Diabetes Prevention Type 1) study that are available to qualified investigators through an application process. These samples are supplied for research purposes only, not for therapeutic, diagnostic, or commercial uses. Information about how to apply for these materials can be obtained from the NIDDK Central Repositories by contacting Ms. Helen Ray of RTI, 1-919-316-3418, or hmp@rti.org. Direct scientific-technical inquiry to the Project Officer of the NIDDK Central Repositories, Dr. Rebekah Rasooly, at phone: (301) 594-6007; e-mail: rr185i@nih.gov. Visit the Repositories Web site at http://www.niddkrepository.org. NICHD - Brain and Tissue Bank for Developmental Disorders The purpose of the Bank is to collect, preserve, and distribute human tissues to investigators interested in autism and developmental disorders; normal tissues may be available for other research purposes. Further information can be obtained at www.btbank.org. The contact persons are H. Ron Zielke or Sally Wisniewsky, University of Maryland (1-800-847-1539), and Carol Petito or Stephanie Lojko, University of Miami (1-800-592-7246). NICHD - Reproductive Tissue Sample Repository (RTSaR) The Reproductive Tissue Sample Repository (RTSaR) is a virtual repository with online tissue sample acquisition capabilities. The RTSaR provides investigators with real-time access to human and nonhuman primate tissue and fluid inventories from four tissue bank facilities that are supported through the Specialized Cooperative Centers Program in Reproduction Research. The tissue banks are located at the University of California, San Diego (human ovary bank), Stanford University (human endometrium and DNA bank), Johns Hopkins University (male reproductive tissues and fluids), and the Oregon National Primate Research Center (nonhuman primate tissues). The web site for the RTSaR is https://rtsar.nichd.nih.gov/rtsar/login. If you wish to access the RTSaR, you can request an id and password to access the system by contacting the network administrator at RTSaR@mail.nih.gov. Once you access the system, contact information for each bank is provided. Access is open to all investigators living in North America who are supported by research and research training grants from the NIH. One id and password will be provided to each principal investigator that can be utilized by any person working in the P.I.’s laboratory, or, in the case of institutional training grants (T32) and institutional career development award programs (K12), any person supported by the aforementioned awards. NCRR - Human Tissues and Organs Resource (HTOR) The Human Tissues and Organs Resource (HTOR) cooperative agreement supports a procurement network developed by the National Disease Research Interchange (NDRI), a not-for-profit organization. By collaborating with various medical centers, hospitals, pathology services, eye banks, tissue banks, and organ procurement organizations, HTOR provides a wide variety of human tissues and organs—both diseased and normal—to researchers for laboratory studies. Such samples include tissues from the central nervous system and brain, cardiovascular system, endocrine system, eyes, bone, and cartilage. For further information, consult the NDRI Web site (www.ndri.com) or contact Dr. John T. Lonsdale at NDRI, 8 Penn Center, 8th Floor, 1628 JFK Boulevard, Philadelphia, PA 19103. Phone: (800) 222-6374, ext. 271; fax: (215) 557-7154; e-mail: jlonsdale@ndriresource.org. The NDRI Web site is http://www.ndri.com. NCRR - Islet Cell Resource (ICR) With support from NCRR, 10 Islet Cell Resource (ICR) centers isolate, purify, and characterize human pancreatic islets for subsequent transplantation into patients with type I diabetes. The ICR centers procure whole pancreata and acquire relevant data about donors; improve islet isolation and purification techniques; distribute islets for use in approved clinical protocols; and perfect the methods of storage and shipping. In this way, the centers optimize the viability, function, and availability of islets and help clinical researchers capitalize on the recently reported successes in islet transplantation. Information on submitting requests for islet cells can be obtained from Mr. John Kaddis, ICR Coordinating Center Project Manager, City of Hope National Medical Center, 1500 E. Duarte Road, Duarte, California 91010. Phone (626) 359-8111, ext. 63377; fax: (626) 471-7106; e-mail: jkaddis@coh.org. The Coordinating Center hosts a Web site at http://icr.coh.org. NIA - SWAN Repository (longitudinal, multiethnic study of women at midlife including the menopausal transition) The SWAN Repository is a biologic specimen bank of the Study of Women’s Health Across the Nation (SWAN). The SWAN cohort was recruited in 1996/1997 and consists of 3302 African-American, Caucasian, Chinese, Hispanic, and Japanese women. The SWAN Repository contains more than 350,000 blood and urine specimens generated from the study participants’ annual visits (8 visits to date), at which time medical and health history, psychosocial measures, biological measures, and anthropometric data were and are being collected. In addition, a subset of the participants are providing urine samples, collected daily over the length of one menstrual cycle, each year. More than 900,000 of these samples are in the SWAN Repository and are available to researchers who wish to study the midlife and menopausal transition. Additionally, a DNA sample repository is also available and includes DNA as well as transformed B-lymphoblastoid cell lines from more than 1800 of the participants. To learn more about the SWAN Repository and how to apply to use SWAN Repository specimens, contact the Web site at http://www. swanrepository.com or Dr. MaryFran Sowers, University of Michigan, School of Public Health, Epidemiology Dept., (734) 936-3892; e-mail: mfsowers@umich.edu. HUMAN AND ANIMAL CELL AND BIOLOGIC REAGENT RESOURCES NIDDK - National Hormone and Peptide Program The National Hormone and Peptide Program (NHPP) offers peptide hormones and their antisera, tissues (rat hypothalami), and miscellaneous reagents to qualified investigators. These reagents are supplied for research purposes only, not for therapeutic, diagnostic, or commercial uses. These materials can be obtained from Dr. A. F. Parlow of the Harbor-UCLA Medical Center, Research and Education Institute, Torrance, CA. A more complete description of resources within this program is provided in The Endocrine Society journals. Direct scientific-technical inquiry to NHPP Scientific Director, Dr. Al Parlow, at phone: (310) 222-3537; fax: (310) 222-3432; e-mail: parlow@humc.edu. Visit the NHPP Web site at http://www.humc.edu/hormones. NICHD - National Hormone and Pituitary Program (see NIDDK listing) Following is a list of reagents currently available through the resources of NICHD: Androgen receptor and peptide antigenRecombinant monkey (cynomolgus) and baboon luteinizing hormone and follicle-stimulating hormone and antisera. NIA - Aging Cell Bank To facilitate aging research on cells in culture, the NIA provides support for the Aging Cell Bank located at the Coriell Institute for Medical Research in Camden, NJ. The Aged Cell Bank provides fibroblast, lymphoblastoid, and differentiated cell lines from a wide range of human age-related conditions and other mammalian species, as well as DNA from a limited subset of cell lines. For further information, the Aged Cell Bank catalog can be accessed at http://locus.umdnj.edu/nia or contact Dr. Donald Coppock at 1-800-752-3805. NCRR - Various Cell Repositories NCRR maintains the following cell repository resources: National Cell Culture Center, National Stem Cell Resource, and the Yeast Genetic Stock Center. Further information regarding these resources may be obtained through the NCRR Web site at: www.ncrr.nih.gov/ncrrprog/cmpdir/BIOLOG.asp. ANIMAL RESOURCES NIA - Aging Rodent Resources NIA maintains both rat and mouse colonies for use by the scientific community. The animals available range in age from 1 to 36 months. A repository of fresh-frozen tissue from the NIA aged rodent colonies is stocked with tissue from mouse and rat strains, including caloric-restricted BALB/c mice. The NIA also maintains a colony of calorically restricted rodents of selected genotypes, which are available to the scientific community. For further information, please refer to the Aged Rodent information handbook at http://www.nia.nih.gov/ResearchInformation/ScientificResources/AgedRodentColoniesHandbook/ or contact the Office of Biological Resources and Resource Development order desk. Phone: (301) 496-0181; fax: (301) 402-5597; e-mail: rodents@nia.nih.gov. NIA - Aged Rodent Tissue Bank The rodent tissue bank contains flash-frozen tissues from rodents in the NIA aged rodent colonies. Tissue is collected from rodents at 4 or 5 age points throughout the lifespan. Tissue arrays are also available. Information is available at http://www.nia.nih.gov/ResearchInformation/ScientificResources/AgedRodentTissueBankHandbook/. NCRR - Mutant Mouse Regional Resource Centers (MMRRC) The Mutant Mouse Regional Resource Center (MMRRC) Program consists of centers that collectively operate as a one-stop shop to serve the biomedical research community. Investigators who have created select mutant mouse models may donate their models to an MMRRC for broad dissemination to other investigators who request them for noncommercial research investigations related to human health, disease, and treatments. The NCRR Division of Comparative Medicine (DCM) supports the MMRRCs, which are electronically linked through the MMRRC Informatics Coordinating Center (ICC) to function as one facility. The ICC, located at The Jackson Laboratory in Bar Harbor, ME, provides database and other informatics support to the MMRRC to give the research community a single entry point to the program. Further information can be obtained from the Web site at http://www.mmrrc.org, or from Franziska Grieder, D.V.M., Ph.D., Division of Comparative Medicine, NCRR. Phone (301) 435-0744; fax: (301) 480-3819; e-mail: griederf@ncrr.nih.gov. NCRR - Induced Mutant Mouse Resource (IMR) The Induced Mutant Mouse Resource (IMR) at The Jackson Laboratory provides researchers with genetically engineered mice (transgenic, targeted mutant, retroviral insertional mutant, and chemically induced mutant mice). The function of the IMR is to select, import, cryopreserve, maintain, and distribute these important strains of mice to the research community. To improve their value for research, the IMR also undertakes genetic development of stocks, such as transferring mutant genes or transgenes to defined genetic backgrounds and combining transgenes and/or targeted mutations to create new mouse models for research. Over 800 mutant stocks have been accepted by the IMR. Current holdings include models for research on cancer, immunological and inflammatory diseases, neurological diseases and behavioral disorders, cardiovascular diseases, developmental disorders, metabolic and other diseases, reporter (e.g. GFP) and recombinase (e.g. cre/loxP) strains. About 8 strains a month are being added to the IMR holdings. A list of all strains may be obtained from the IMR Web site: www.jax.org/resources/documents/imr/. Online submission forms are also available on that site. All mice can be ordered by calling The Jackson Laboratory’s Customer Service Department at 1-800-422-MICE or (207) 288-5845 or by faxing (207) 288-6150. NIDDK - Mouse Metabolic Phenotyping Centers The mission of the Mouse Metabolic Phenotyping Centers is to provide the scientific community with standardized, high-quality metabolic and physiologic phenotyping services for mouse models of diabetes, diabetic complications, obesity, and related disorders. Researchers can ship mice to one of the four Centers (University of Cincinnati, University of Texas Southwestern Medical Center, Vanderbilt University, and Yale University) and obtain on a fee-for-service basis a range of complex exams used to characterize mouse metabolism, blood composition, energy balance, eating and exercise, organ function and morphology, physiology, and histology. Many tests are done in living animals and are designed to elucidate the subtle hallmarks of metabolic disease. Information, including a complete list of available tests, can be found at www.mmpc.org, or contact Dr. Maren R. Laughlin, NIDDK, at (301) 594-8802; e-mail: Maren.Laughlin@nih.gov; or Dr. Kristin Abraham, NIDDK, at (301) 451-8048; e-mail: abrahamk@extra.niddk.nih.gov. NCRR - National Primate Research Centers (NPRCs) National Primate Research Centers (NPRCs) are a network of eight highly specialized facilities for nonhuman primates (NHP) research. Funded by grants through NCRR’s Division of Comparative Medicine (DCM), each center, staffed with experienced research and support staff, provides the appropriate research environment to foster the development of NHP models of human health and disease for biomedical investigations. The NPRCs are affiliated with academic institutions and are accessible to eligible biomedical and behavioral investigators supported by research project grants from the National Institutes of Health and other sources. Further information may be obtained from the notice, Procedures for Accessing Regional Primate Research Centers, published in the NIH Guide for Grants and Contracts at http://grants2.nih.gov/grants/guide/notice-files/not97-014.html, or from John Harding, Ph.D., National Primate Research Centers and AIDS Animal Models Program, Division of Comparative Medicine, NCRR. Phone: (301) 435-0744; fax: (301) 480-3819; e-mail: hardingj@mail.nih.gov. NIA - Nonhuman Primates, Aging Set-Aside Colony NIA maintains approximately 200 nonhuman primates (M. mulatta) at four National Primate Research Centers (see above) for conducting research on aging. These animals range in age from 18 to 35 years. While these animals are predominantly reserved for non-invasive research, exceptions can be made to this policy. For further information, please contact Dr. Nancy Nadon, Office of Biological Resources and Resource Development, NIA. Phone: (301) 402-7744; fax: (301) 402-0010; e-mail: nadonn@nia.nih.gov. NIA - Nonhuman Primate (NHP) Tissue Bank and Aging Database The NIA developed two new resources to facilitate research in the NHP model. The NHP tissue bank contains fresh-frozen and fixed tissue donated by primate centers around the country. Information is available at http://www.nia.nih.gov/ResearchInformation/ScientificResources/NHPTissueBankHandbook.htm. The Primate Aging Database provides an internet accessible database with data from thousands of primates around the country. It can be used to investigate the effect of age on a variety of parameters, predominantly blood chemistry and husbandry measurements. The site is password protected. The URL is http://ipad.primate.wisc.edu. NIA - Obesity, Diabetes and Aging Animal Resource (USF-ODARC) The NIA supports a colony of aged rhesus macaques, many of which are obese and/or diabetic. This is a long-term colony of monkeys housed at the University of South Florida’s Obesity, Diabetes and Aging Research Center. They have been extensively and longitudinally characterized for general health variables, blood chemistry, food intake, and body weight. Diabetic monkeys are tested daily for urine glucose and ketone levels, and prediabetic monkeys are tested weekly. Data for some of the monkeys extend as far back as 15 years. This unique resource is available for collaborative studies. ODARC has a significant amount of stored tissue collected at necropsy and stored blood/plasma collected longitudinally. Serial blood collection or tissue collection at necropsy can also be performed prospectively. Testing and imaging can also be performed on the monkeys. Inquiries regarding collaborative studies using the ODARC colony should be directed to: Barbara C. Hansen, Ph.D., Director, Obesity, Diabetes and Aging Research Center, University of South Florida, All Children’s Hospital, 801 6th Street South #9340, St. Petersburg, FL 33701. Phone: (727) 767-6993; fax: (727) 767-7443; e-mail: bchansen@aol.com. NCRR - Various Animal Resources NCRR maintains the following animal resources: Animal Models and Genetic Stocks, Chimpanzee Biomedical Research Program, NIH Animal Genetic Resource, and the Specific Pathogen Free Macaque Breeding and Research Program. Further information regarding these and other resources may be obtained through the NCRR Web site at www.ncrr.nih.gov/comparative_med.asp. IN SILICO RESOURCES NIDDK, NHLBI, and NIEHS - Nuclear Receptor Signaling Atlas The Nuclear Receptor Signaling Atlas (NURSA) has created an in silico resource comprised of curated information about Nuclear Receptors, Coregulators, Ligands, and Downstream Targets. NURSA is sponsored by NIH and provides online access through a public webportal at www.NURSA.org. Ease of navigation through a series of molecule pages allows users to make queries about Nuclear Receptors, Coactivators and Corepressors. Additional information about nuclear receptor ligands is provided, as well as primary datasets relating to expression profiling of nuclear receptors, coregulators and downstream targets. The molecule pages are hyperlinked to data contained in external databases, including NCBI, KEGG, UniProt, and others, allowing for detailed data mining. In partnership with The Endocrine Society, NURSA and Molecular Endocrinology (http://mend.endojournals.org/) have reciprocal links designed to enhance publications in Molecular Endocrinology and the information available through the NURSA molecule pages. Links to additional relevant literature citations are from PubMed at the National Library of Medicine. MISCELLANEOUS RESOURCES NCRR - National Gene Vector Laboratories (NGVLs) The National Gene Vector Laboratories (NGVLs), with core funding from NCRR, serve as a resource for researchers to obtain adequate quantities of clinical-grade vectors for human gene transfer protocols. The vector types include retrovirus, lentivirus, adenovirus, adeno-associated virus, herpes-virus, and DNA plasmids. The NGVLs consist of three vector production centers at: Baylor College of Medicine; City of Hope National Medical Center and Beckman Research Institute; and Indiana University, which also serves as the Coordinating Center for all the laboratories. Two additional laboratories conduct toxicology studies for NGVL-approved investigators. These laboratories are located at the Southern Research Institute and the University of Florida. Additional information about the process for requesting vector production and/or pharmacology/toxicology support should be directed to Ms. Lorraine Matheson, NGVL Project Coordinator, Indiana University School of Medicine. Phone: (317) 274-4519; fax: (317) 278-4518; e-mail: lrubin@iupui.edu. The NGVL Coordinating Center at Indiana University also hosts a Web site at http://www.ngvl.org. NCRR - General Clinical Research Centers (GCRCs) The General Clinical Research Centers (GCRCs) are a national network of 82 centers that provide optimal settings for medical investigators to conduct safe, controlled, state-of-the-art in-patient and out-patient studies of both children and adults. GCRCs also provide infrastructure and resources that support several career development opportunities. Investigators who have research project funding from the National Institutes of Health (NIH) and other peer-reviewed sources may apply to use GCRCs. Because the GCRCs support a full spectrum of patient-oriented scientific inquiry, researchers who use these centers can benefit from collaborative, multidisciplinary research opportunities. To request access to a GCRC facility, eligible investigators should initially contact a GCRC program director, listed in the National Center for Research Resources (NCRR) Clinical Research Resources Directory (www.ncrr.nih.gov/ncrrprog/clindir/crdirectory.asp). Further information can be obtained from Anthony R. Hayward, M.D., Director, Division for Clinical Research Resources, National Center for Research Resources at NIH. Phone: (301) 435-0790; e-mail: haywarda@ncrr.nih.gov.

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Abstract:

Resources currently available to the scientific community that may be of interest for endocrinology research are described briefly here. More information is available through The Endocrine Society Home Page (http://www.endo-society.org) or the information provided below. HUMAN TISSUE AND BIOLOGIC SPECIMEN RESOURCES NCI - Cooperative Human Tissue Network (CHTN) The NCI Cooperative Human Tissue Network (CHTN) provides normal, benign, precancerous, and cancerous human tissue to the scientific community for biomedical research. Specimens are collected according to the investigator’s individual protocol. Information provided with the specimens includes routine histopathologic and demographic data. The CHTN can also provide a variety of tissue microarrays. Contact the CHTN Web site at http://www-chtn.ims.nci.nih.gov, or 1-866-GO2-CHTN (1-866-462-2486). NCI - Cooperative Breast Cancer Tissue Resource (CBCTR) The NCI Cooperative Breast Cancer Tissue Resource (CBCTR) can provide researchers with access to formalin-fixed, paraffin-embedded primary breast cancer specimens, with associated pathologic, clinical, and outcome data. All specimens are evaluated for pathologic diagnosis by CBCTR pathologists using standard diagnostic criteria. The collection is particularly well suited for validation studies of diagnostic and prognostic markers. The CBCTR also makes available breast cancer tissue microarrays designed by NCI statisticians to provide high statistical power for studies of stage-specific markers of breast cancer. Contact CBCTR’s Web site at http://cbctr.nci.nih.gov, or contact Steve Marroulis at Information Management Services, Inc.: telephone: (301) 680-9770; e-mail: marrouliss@imsweb.com. NCI - Cooperative Prostate Cancer Tissue Resource (CPCTR) The NCI Cooperative Prostate Cancer Tissue Resource (CPCTR) can provide access to over 4,000 cases of formalin-fixed, paraffin-embedded primary prostate cancer specimens, with associated pathology and clinical data. Fresh-frozen tissue is also available with limited clinical follow-up information. In addition, slides from prostate cancer tissue microarrays with associated pathology and clinical data are now available. Contact the CPCTR Web site at http://www.prostatetissues.org, or contact Steve Marroulis at Information Management Services, Inc.: telephone: (301) 680-9770; e-mail: marrouliss@imsweb.com. NCI - AIDS and Cancer Specimen Resource (ACSR) The AIDS and Cancer Specimen Resource (ACSR) provides qualified researchers with tissue, cell, blood, and fluid specimens, as well as clinical data from patients with AIDS and cancer. The specimens and clinical data are available for research studies, particularly those that translate basic research findings to clinical application. Contact the ACSR Web site (http://acsr.ucsf.edu/) or Dr. Kishor Bhatia, (301) 496-7147; e-mail: bhatiak@mail.nih.gov. NCI - Breast and Ovarian Cancer Family Registries (CFRs) The Breast and Ovarian CFRs facilitate and support interdisciplinary and population-based research on the identification and characterization of breast and ovarian cancer susceptibility genes, with particular emphasis on gene-gene and gene-environment interaction research. Available from the registries are: a) family history, epidemiologic and clinical data, b) updates on cancer recurrence, morbidity and mortality in participating families, and c) biospecimens, including plasma, lymphocytes, serum, DNA, Guthrie cards or buccal smears, and paraffin blocks of tumor tissue. For further information on these registries, contact the CFR Web site (http://epi.grants.cancer.gov/BCFR) or (301) 496-9600. NCI - Specimen Resource Locator The NCI Specimen Resource Locator (http://cancer.gov/specimens) is a database that helps researchers locate specimens for research. The database includes resources such as tissue banks and tissue procurement systems with access to normal, benign, precancerous, and/or cancerous human tissue covering a wide variety of organ sites. Researchers specify the types of specimens, number of cases, preservation methods, and associated data they require. The Locator will search the database and return a list of tissue resources most likely to meet their requirements. When no match is obtained, the researcher is referred to the NCI Tissue Expediter [(301) 496-7147; e-mail: tissexp@mail.nih.gov]. The Tissue Expediter is a scientist who can help match researchers with appropriate resources or identify appropriate collaborators when those are necessary. NIDDK - Biologic Samples from Diabetic Study Foundation A portion (1/3) of all stored nonrenewable samples (plasma, serum, urine) from subjects enrolled in the Diabetes Control and Complications Trial (DCCT) is available for use by the scientific community to address questions for which these samples may be invaluable. Announcements for using this resource appear in the NIH Guide for Grants and Contracts periodically. Inquiries may be addressed to: Catherine C. Cowie, Ph.D., Director, Diabetes Epidemiology Program, NIDDK, 6707 Democracy Blvd., Room 691, MSC 5460, National Institute of Diabetes and Digestive and Kidney Diseases, Bethesda, MD 20892-5460. Phone: (301) 594-8804; fax: (301) 480-3503; e-mail: cowiec@extra.niddk.nih.gov. NIDDK - NIDDK Central Repositories (Diabetes Prevention Study) The NIDDK Central Repositories have selected biosamples from the DPT-1 (The Diabetes Prevention Type 1) study that are available to qualified investigators through an application process. These samples are supplied for research purposes only, not for therapeutic, diagnostic, or commercial uses. Information about how to apply for these materials can be obtained from the NIDDK Central Repositories by contacting Ms. Helen Ray of RTI, 1-919-316-3418, or hmp@rti.org. Direct scientific-technical inquiry to the Project Officer of the NIDDK Central Repositories, Dr. Rebekah Rasooly, at phone: (301) 594-6007; e-mail: rr185i@nih.gov. Visit the Repositories Web site at http://www.niddkrepository.org. NICHD - Brain and Tissue Bank for Developmental Disorders The purpose of the Bank is to collect, preserve, and distribute human tissues to investigators interested in autism and developmental disorders; normal tissues may be available for other research purposes. Further information can be obtained at www.btbank.org. The contact persons are H. Ron Zielke or Sally Wisniewsky, University of Maryland (1-800-847-1539), and Carol Petito or Stephanie Lojko, University of Miami (1-800-592-7246). NICHD - Reproductive Tissue Sample Repository (RTSaR) The Reproductive Tissue Sample Repository (RTSaR) is a virtual repository with online tissue sample acquisition capabilities. The RTSaR provides investigators with real-time access to human and nonhuman primate tissue and fluid inventories from four tissue bank facilities that are supported through the Specialized Cooperative Centers Program in Reproduction Research. The tissue banks are located at the University of California, San Diego (human ovary bank), Stanford University (human endometrium and DNA bank), Johns Hopkins University (male reproductive tissues and fluids), and the Oregon National Primate Research Center (nonhuman primate tissues). The web site for the RTSaR is https://rtsar.nichd.nih.gov/rtsar/login. If you wish to access the RTSaR, you can request an id and password to access the system by contacting the network administrator at RTSaR@mail.nih.gov. Once you access the system, contact information for each bank is provided. Access is open to all investigators living in North America who are supported by research and research training grants from the NIH. One id and password will be provided to each principal investigator that can be utilized by any person working in the P.I.’s laboratory, or, in the case of institutional training grants (T32) and institutional career development award programs (K12), any person supported by the aforementioned awards. NCRR - Human Tissues and Organs Resource (HTOR) The Human Tissues and Organs Resource (HTOR) cooperative agreement supports a procurement network developed by the National Disease Research Interchange (NDRI), a not-for-profit organization. By collaborating with various medical centers, hospitals, pathology services, eye banks, tissue banks, and organ procurement organizations, HTOR provides a wide variety of human tissues and organs—both diseased and normal—to researchers for laboratory studies. Such samples include tissues from the central nervous system and brain, cardiovascular system, endocrine system, eyes, bone, and cartilage. For further information, consult the NDRI Web site (www.ndri.com) or contact Dr. John T. Lonsdale at NDRI, 8 Penn Center, 8th Floor, 1628 JFK Boulevard, Philadelphia, PA 19103. Phone: (800) 222-6374, ext. 271; fax: (215) 557-7154; e-mail: jlonsdale@ndriresource.org. The NDRI Web site is http://www.ndri.com. NCRR - Islet Cell Resource (ICR) With support from NCRR, 10 Islet Cell Resource (ICR) centers isolate, purify, and characterize human pancreatic islets for subsequent transplantation into patients with type I diabetes. The ICR centers procure whole pancreata and acquire relevant data about donors; improve islet isolation and purification techniques; distribute islets for use in approved clinical protocols; and perfect the methods of storage and shipping. In this way, the centers optimize the viability, function, and availability of islets and help clinical researchers capitalize on the recently reported successes in islet transplantation. Information on submitting requests for islet cells can be obtained from Mr. John Kaddis, ICR Coordinating Center Project Manager, City of Hope National Medical Center, 1500 E. Duarte Road, Duarte, California 91010. Phone (626) 359-8111, ext. 63377; fax: (626) 471-7106; e-mail: jkaddis@coh.org. The Coordinating Center hosts a Web site at http://icr.coh.org. NIA - SWAN Repository (longitudinal, multiethnic study of women at midlife including the menopausal transition) The SWAN Repository is a biologic specimen bank of the Study of Women’s Health Across the Nation (SWAN). The SWAN cohort was recruited in 1996/1997 and consists of 3302 African-American, Caucasian, Chinese, Hispanic, and Japanese women. The SWAN Repository contains more than 350,000 blood and urine specimens generated from the study participants’ annual visits (8 visits to date), at which time medical and health history, psychosocial measures, biological measures, and anthropometric data were and are being collected. In addition, a subset of the participants are providing urine samples, collected daily over the length of one menstrual cycle, each year. More than 900,000 of these samples are in the SWAN Repository and are available to researchers who wish to study the midlife and menopausal transition. Additionally, a DNA sample repository is also available and includes DNA as well as transformed B-lymphoblastoid cell lines from more than 1800 of the participants. To learn more about the SWAN Repository and how to apply to use SWAN Repository specimens, contact the Web site at http://www.swanrepository.com or Dr. MaryFran Sowers, University of Michigan, School of Public Health, Epidemiology Dept., (734) 936-3892; e-mail: mfsowers@umich.edu. HUMAN AND ANIMAL CELL AND BIOLOGIC REAGENT RESOURCES NIDDK - National Hormone and Peptide Program The National Hormone and Peptide Program (NHPP) offers peptide hormones and their antisera, tissues (rat hypothalami), and miscellaneous reagents to qualified investigators. These reagents are supplied for research purposes only, not for therapeutic, diagnostic, or commercial uses. These materials can be obtained from Dr. A. F. Parlow of the Harbor-UCLA Medical Center, Research and Education Institute, Torrance, CA. A more complete description of resources within this program is provided in The Endocrine Society journals. Direct scientific-technical inquiry to NHPP Scientific Director, Dr. Al Parlow, at phone: (310) 222-3537; fax: (310) 222-3432; e-mail: parlow@humc.edu. Visit the NHPP Web site at http://www.humc.edu/hormones. NICHD - National Hormone and Pituitary Program (see NIDDK listing) Following is a list of reagents currently available through the resources of NICHD: Androgen receptor and peptide antigen Recombinant monkey (cynomolgus) and baboon luteinizing hormone and follicle-stimulating hormone and antisera. NIA - Aging Cell Bank To facilitate aging research on cells in culture, the NIA provides support for the Aging Cell Bank located at the Coriell Institute for Medical Research in Camden, NJ. The Aged Cell Bank provides fibroblast, lymphoblastoid, and differentiated cell lines from a wide range of human age-related conditions and other mammalian species, as well as DNA from a limited subset of cell lines. For further information, the Aged Cell Bank catalog can be accessed at http://locus.umdnj.edu/nia or contact Dr. Donald Coppock at 1-800-752-3805. NCRR - Various Cell Repositories NCRR maintains the following cell repository resources: National Cell Culture Center, National Stem Cell Resource, and the Yeast Genetic Stock Center. Further information regarding these resources may be obtained through the NCRR Web site at: www.ncrr.nih.gov/ncrrprog/cmpdir/BIOLOG.asp. ANIMAL RESOURCES NIA - Aging Rodent Resources NIA maintains both rat and mouse colonies for use by the scientific community. The animals available range in age from 1 to 36 months. A repository of fresh-frozen tissue from the NIA aged rodent colonies is stocked with tissue from mouse and rat strains, including caloric-restricted BALB/c mice. The NIA also maintains a colony of calorically restricted rodents of selected genotypes, which are available to the scientific community. For further information, please refer to the Aged Rodent information handbook at http://www.nia.nih.gov/ResearchInformation/ScientificResources/AgedRodentColoniesHandbook/ or contact the Office of Biological Resources and Resource Development order desk. Phone: (301) 496-0181; fax: (301) 402-5597; e-mail: rodents@nia.nih.gov. NIA - Aged Rodent Tissue Bank The rodent tissue bank contains flash-frozen tissues from rodents in the NIA aged rodent colonies. Tissue is collected from rodents at 4 or 5 age points throughout the lifespan. Tissue arrays are also available. Information is available at http://www.nia.nih.gov/ResearchInformation/ScientificResources/AgedRodentTissueBankHandbook/. NCRR - Mutant Mouse Regional Resource Centers (MMRRC) The Mutant Mouse Regional Resource Center (MMRRC) Program consists of centers that collectively operate as a one-stop shop to serve the biomedical research community. Investigators who have created select mutant mouse models may donate their models to an MMRRC for broad dissemination to other investigators who request them for noncommercial research investigations related to human health, disease, and treatments. The NCRR Division of Comparative Medicine (DCM) supports the MMRRCs, which are electronically linked through the MMRRC Informatics Coordinating Center (ICC) to function as one facility. The ICC, located at The Jackson Laboratory in Bar Harbor, ME, provides database and other informatics support to the MMRRC to give the research community a single entry point to the program. Further information can be obtained from the Web site at http://www.mmrrc.org, or from Franziska Grieder, D.V.M., Ph.D., Division of Comparative Medicine, NCRR. Phone (301) 435-0744; fax: (301) 480-3819; e-mail: griederf@ncrr.nih.gov. NCRR - Induced Mutant Mouse Resource (IMR) The Induced Mutant Mouse Resource (IMR) at The Jackson Laboratory provides researchers with genetically engineered mice (transgenic, targeted mutant, retroviral insertional mutant, and chemically induced mutant mice). The function of the IMR is to select, import, cryopreserve, maintain, and distribute these important strains of mice to the research community. To improve their value for research, the IMR also undertakes genetic development of stocks, such as transferring mutant genes or transgenes to defined genetic backgrounds and combining transgenes and/or targeted mutations to create new mouse models for research. Over 800 mutant stocks have been accepted by the IMR. Current holdings include models for research on cancer, immunological and inflammatory diseases, neurological diseases and behavioral disorders, cardiovascular diseases, developmental disorders, metabolic and other diseases, reporter (e.g. GFP) and recombinase (e.g. cre/loxP) strains. About 8 strains a month are being added to the IMR holdings. A list of all strains may be obtained from the IMR Web site: www.jax.org/resources/documents/imr/. Online submission forms are also available on that site. All mice can be ordered by calling The Jackson Laboratory’s Customer Service Department at 1-800-422-MICE or (207) 288-5845 or by faxing (207) 288-6150. NIDDK - Mouse Metabolic Phenotyping Centers The mission of the Mouse Metabolic Phenotyping Centers is to provide the scientific community with standardized, high-quality metabolic and physiologic phenotyping services for mouse models of diabetes, diabetic complications, obesity, and related disorders. Researchers can ship mice to one of the four Centers (University of Cincinnati, University of Texas Southwestern Medical Center, Vanderbilt University, and Yale University) and obtain on a fee-for-service basis a range of complex exams used to characterize mouse metabolism, blood composition, energy balance, eating and exercise, organ function and morphology, physiology, and histology. Many tests are done in living animals and are designed to elucidate the subtle hallmarks of metabolic disease. Information, including a complete list of available tests, can be found at www.mmpc.org, or contact Dr. Maren R. Laughlin, NIDDK, at (301) 594-8802; e-mail: Maren.Laughlin@nih.gov; or Dr. Kristin Abraham, NIDDK, at (301) 451-8048; e-mail: abrahamk@extra.niddk.nih.gov. NCRR - National Primate Research Centers (NPRCs) National Primate Research Centers (NPRCs) are a network of eight highly specialized facilities for nonhuman primates (NHP) research. Funded by grants through NCRR’s Division of Comparative Medicine (DCM), each center, staffed with experienced research and support staff, provides the appropriate research environment to foster the development of NHP models of human health and disease for biomedical investigations. The NPRCs are affiliated with academic institutions and are accessible to eligible biomedical and behavioral investigators supported by research project grants from the National Institutes of Health and other sources. Further information may be obtained from the notice, Procedures for Accessing Regional Primate Research Centers, published in the NIH Guide for Grants and Contracts at http://grants2.nih.gov/grants/guide/notice-files/not97-014.htm, or from John Harding, Ph.D., National Primate Research Centers and AIDS Animal Models Program, Division of Comparative Medicine, NCRR. Phone: (301) 435-0744; fax: (301) 480-3819; e-mail: hardingj@mail.nih.gov. NIA - Nonhuman Primates, Aging Set-Aside Colony NIA maintains approximately 200 nonhuman primates (M. mulatta) at four National Primate Research Centers (see above) for conducting research on aging. These animals range in age from 18 to 35 years. While these animals are predominantly reserved for non-invasive research, exceptions can be made to this policy. For further information, please contact Dr. Nancy Nadon, Office of Biological Resources and Resource Development, NIA. Phone: (301) 402-7744; fax: (301) 402-0010; e-mail: nadonn@nia.nih.gov. NIA - Nonhuman Primate (NHP) Tissue Bank and Aging Database The NIA developed two new resources to facilitate research in the NHP model. The NHP tissue bank contains fresh-frozen and fixed tissue donated by primate centers around the country. Information is available at http://www.nia.nih.gov/ResearchInformation/ScientificResources/NHPTissueBankHandbook.htm. The Primate Aging Database provides an internet accessible database with data from thousands of primates around the country. It can be used to investigate the effect of age on a variety of parameters, predominantly blood chemistry and husbandry measurements. The site is password protected. The URL is http://ipad.primate.wisc.edu. NIA - Obesity, Diabetes and Aging Animal Resource (USF-ODARC) The NIA supports a colony of aged rhesus macaques, many of which are obese and/or diabetic. This is a long-term colony of monkeys housed at the University of South Florida’s Obesity, Diabetes and Aging Research Center. They have been extensively and longitudinally characterized for general health variables, blood chemistry, food intake, and body weight. Diabetic monkeys are tested daily for urine glucose and ketone levels, and prediabetic monkeys are tested weekly. Data for some of the monkeys extend as far back as 15 years. This unique resource is available for collaborative studies. ODARC has a significant amount of stored tissue collected at necropsy and stored blood/plasma collected longitudinally. Serial blood collection or tissue collection at necropsy can also be performed prospectively. Testing and imaging can also be performed on the monkeys. Inquiries regarding collaborative studies using the ODARC colony should be directed to: Barbara C. Hansen, Ph.D., Director, Obesity, Diabetes and Aging Research Center, University of South Florida, All Children’s Hospital, 801 6th Street South #9340, St. Petersburg, FL 33701. Phone: (727) 767-6993; fax: (727) 767-7443; e-mail: bchansen@aol.com. NCRR - Various Animal Resources NCRR maintains the following animal resources: Animal Models and Genetic Stocks, Chimpanzee Biomedical Research Program, NIH Animal Genetic Resource, and the Specific Pathogen Free Macaque Breeding and Research Program. Further information regarding these and other resources may be obtained through the NCRR Web site at www.ncrr.nih.gov/comparative_med.asp. IN SILICO RESOURCES NIDDK, NHLBI, and NIEHS - Nuclear Receptor Signaling Atlas The Nuclear Receptor Signaling Atlas (NURSA) has created an in silico resource comprised of curated information about Nuclear Receptors, Coregulators, Ligands, and Downstream Targets. NURSA is sponsored by NIH and provides online access through a public webportal at www.NURSA.org. Ease of navigation through a series of molecule pages allows users to make queries about Nuclear Receptors, Coactivators and Corepressors. Additional information about nuclear receptor ligands is provided, as well as primary datasets relating to expression profiling of nuclear receptors, coregulators and downstream targets. The molecule pages are hyperlinked to data contained in external databases, including NCBI, KEGG, UniProt, and others, allowing for detailed data mining. In partnership with The Endocrine Society, NURSA and Molecular Endocrinology (http://mend.endojournals.org/) have reciprocal links designed to enhance publications in Molecular Endocrinology and the information available through the NURSA molecule pages. Links to additional relevant literature citations are from PubMed at the National Library of Medicine. MISCELLANEOUS RESOURCES NCRR - National Gene Vector Laboratories (NGVLs) The National Gene Vector Laboratories (NGVLs), with core funding from NCRR, serve as a resource for researchers to obtain adequate quantities of clinical-grade vectors for human gene transfer protocols. The vector types include retrovirus, lentivirus, adenovirus, adeno-associated virus, herpes-virus, and DNA plasmids. The NGVLs consist of three vector production centers at: Baylor College of Medicine; City of Hope National Medical Center and Beckman Research Institute; and Indiana University, which also serves as the Coordinating Center for all the laboratories. Two additional laboratories conduct toxicology studies for NGVL-approved investigators. These laboratories are located at the Southern Research Institute and the University of Florida. Additional information about the process for requesting vector production and/or pharmacology/toxicology support should be directed to Ms. Lorraine Matheson, NGVL Project Coordinator, Indiana University School of Medicine. Phone: (317) 274-4519; fax: (317) 278-4518; e-mail: lrubin@iupui.edu. The NGVL Coordinating Center at Indiana University also hosts a Web site at http://www.ngvl.org. NCRR - General Clinical Research Centers (GCRCs) The General Clinical Research Centers (GCRCs) are a national network of 82 centers that provide optimal settings for medical investigators to conduct safe, controlled, state-of-the-art in-patient and out-patient studies of both children and adults. GCRCs also provide infrastructure and resources that support several career development opportunities. Investigators who have research project funding from the National Institutes of Health (NIH) and other peer-reviewed sources may apply to use GCRCs. Because the GCRCs support a full spectrum of patient-oriented scientific inquiry, researchers who use these centers can benefit from collaborative, multidisciplinary research opportunities. To request access to a GCRC facility, eligible investigators should initially contact a GCRC program director, listed in the National Center for Research Resources (NCRR) Clinical Research Resources Directory (www.ncrr.nih.gov/ncrrprog/clindir/crdirectory.asp). Further information can be obtained from Anthony R. Hayward, M.D., Director, Division for Clinical Research Resources, National Center for Research Resources at NIH. Phone: (301) 435-0790; e-mail: haywarda@ncrr.nih.gov.

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Resources currently available to the scientific community that may be of interest for endocrinology research are described briefly here. More information is available through The Endocrine Society Home Page (http://www.endo-society.org) or the information provided below. HUMAN TISSUE AND BIOLOGIC SPECIMEN RESOURCES NCI - Cooperative Human Tissue Network (CHTN) The NCI Cooperative Human Tissue Network (CHTN) provides normal, benign, precancerous, and cancerous human tissue to the scientific community for biomedical research. Specimens are collected according to the investigator’s individual protocol. Information provided with the specimens includes routine histopathologic and demographic data. The CHTN can also provide a variety of tissue microarrays. Contact the CHTN Web site at http://www-chtn.ims.nci.nih.gov, or 1-866-GO2-CHTN (1-866-462-2486). NCI - Cooperative Breast Cancer Tissue Resource (CBCTR) The NCI Cooperative Breast Cancer Tissue Resource (CBCTR) can provide researchers with access to formalin-fixed, paraffin-embedded primary breast cancer specimens, with associated pathologic, clinical, and outcome data. All specimens are evaluated for pathologic diagnosis by CBCTR pathologists using standard diagnostic criteria. The collection is particularly well suited for validation studies of diagnostic and prognostic markers. The CBCTR also makes available breast cancer tissue microarrays designed by NCI statisticians to provide high statistical power for studies of stage-specific markers of breast cancer. Contact CBCTR’s Web site at http://cbctr.nci.nih.gov, or contact Steve Marroulis at Information Management Services, Inc.: telephone: (301) 680-9770; e-mail: marrouliss@imsweb.com. NCI - Cooperative Prostate Cancer Tissue Resource (CPCTR) The NCI Cooperative Prostate Cancer Tissue Resource (CPCTR) can provide access to over 4,000 cases of formalin-fixed, paraffin-embedded primary prostate cancer specimens, with associated pathology and clinical data. Fresh-frozen tissue is also available with limited clinical follow-up information. In addition, slides from prostate cancer tissue microarrays with associated pathology and clinical data are now available. Contact the CPCTR Web site at http://www.prostatetissues.org, or contact Steve Marroulis at Information Management Services, Inc.: telephone: (301) 680-9770; e-mail: marrouliss@imsweb.com. NCI - AIDS and Cancer Specimen Resource (ACSR) The AIDS and Cancer Specimen Resource (ACSR) provides qualified researchers with tissue, cell, blood, and fluid specimens, as well as clinical data from patients with AIDS and cancer. The specimens and clinical data are available for research studies, particularly those that translate basic research findings to clinical application. Contact the ACSR Web site (http://acsr.ucsf.edu/) or Dr. Kishor Bhatia, (301) 496-7147; e-mail: bhatiak@mail.nih.gov. NCI - Breast and Ovarian Cancer Family Registries (CFRs) The Breast and Ovarian CFRs facilitate and support interdisciplinary and population-based research on the identification and characterization of breast and ovarian cancer susceptibility genes, with particular emphasis on gene-gene and gene-environment interaction research. Available from the registries are: a) family history, epidemiologic and clinical data, b) updates on cancer recurrence, morbidity and mortality in participating families, and c) biospecimens, including plasma, lymphocytes, serum, DNA, Guthrie cards or buccal smears, and paraffin blocks of tumor tissue. For further information on these registries, contact the CFR Web site (http://epi.grants.cancer.gov/BCFR) or (301) 496-9600. NCI - Specimen Resource Locator The NCI Specimen Resource Locator (http://cancer.gov/specimens) is a database that helps researchers locate specimens for research. The database includes resources such as tissue banks and tissue procurement systems with access to normal, benign, precancerous, and/or cancerous human tissue covering a wide variety of organ sites. Researchers specify the types of specimens, number of cases, preservation methods, and associated data they require. The Locator will search the database and return a list of tissue resources most likely to meet their requirements. When no match is obtained, the researcher is referred to the NCI Tissue Expediter [(301) 496-7147; e-mail: tissexp@mail.nih.gov]. The Tissue Expediter is a scientist who can help match researchers with appropriate resources or identify appropriate collaborators when those are necessary. NIDDK - Biologic Samples from Diabetic Study Foundation A portion (1/3) of all stored nonrenewable samples (plasma, serum, urine) from subjects enrolled in the Diabetes Control and Complications Trial (DCCT) is available for use by the scientific community to address questions for which these samples may be invaluable. Announcements for using this resource appear in the NIH Guide for Grants and Contracts periodically. Inquiries may be addressed to: Catherine C. Cowie, Ph.D., Director, Diabetes Epidemiology Program, NIDDK, 6707 Democracy Blvd., Room 691, MSC 5460, National Institute of Diabetes and Digestive and Kidney Diseases, Bethesda, MD 20892-5460. Phone: (301) 594-8804; fax: (301) 480-3503; e-mail: cowiec@extra.niddk.nih.gov. NIDDK - NIDDK Central Repositories (Diabetes Prevention Study) The NIDDK Central Repositories have selected biosamples from the DPT-1 (The Diabetes Prevention Type 1) study that are available to qualified investigators through an application process. These samples are supplied for research purposes only, not for therapeutic, diagnostic, or commercial uses. Information about how to apply for these materials can be obtained from the NIDDK Central Repositories by contacting Ms. Helen Ray of RTI, 1-919-316-3418, or hmp@rti.org. Direct scientific-technical inquiry to the Project Officer of the NIDDK Central Repositories, Dr. Rebekah Rasooly, at phone: (301) 594-6007; e-mail: rr185i@nih.gov. Visit the Repositories Web site at http://www.niddkrepository.org. NICHD - Brain and Tissue Bank for Developmental Disorders The purpose of the Bank is to collect, preserve, and distribute human tissues to investigators interested in autism and developmental disorders; normal tissues may be available for other research purposes. Further information can be obtained at www.btbank.org. The contact persons are H. Ron Zielke or Sally Wisniewsky, University of Maryland (1-800-847-1539), and Carol Petito or Stephanie Lojko, University of Miami (1-800-592-7246). NICHD - Reproductive Tissue Sample Repository (RTSaR) The Reproductive Tissue Sample Repository (RTSaR) is a virtual repository with online tissue sample acquisition capabilities. The RTSaR provides investigators with real-time access to human and nonhuman primate tissue and fluid inventories from four tissue bank facilities that are supported through the Specialized Cooperative Centers Program in Reproduction Research. The tissue banks are located at the University of California, San Diego (human ovary bank), Stanford University (human endometrium and DNA bank), Johns Hopkins University (male reproductive tissues and fluids), and the Oregon National Primate Research Center (nonhuman primate tissues). The web site for the RTSaR is https://rtsar.nichd.nih.gov/rtsar/login. If you wish to access the RTSaR, you can request an id and password to access the system by contacting the network administrator at RTSaR@mail.nih.gov. Once you access the system, contact information for each bank is provided. Access is open to all investigators living in North America who are supported by research and research training grants from the NIH. One id and password will be provided to each principal investigator that can be utilized by any person working in the P.I.’s laboratory, or, in the case of institutional training grants (T32) and institutional career development award programs (K12), any person supported by the aforementioned awards. NCRR - Human Tissues and Organs Resource (HTOR) The Human Tissues and Organs Resource (HTOR) cooperative agreement supports a procurement network developed by the National Disease Research Interchange (NDRI), a not-for-profit organization. By collaborating with various medical centers, hospitals, pathology services, eye banks, tissue banks, and organ procurement organizations, HTOR provides a wide variety of human tissues and organs—both diseased and normal—to researchers for laboratory studies. Such samples include tissues from the central nervous system and brain, cardiovascular system, endocrine system, eyes, bone, and cartilage. For further information, consult the NDRI Web site (www.ndri.com) or contact Dr. John T. Lonsdale at NDRI, 8 Penn Center, 8th Floor, 1628 JFK Boulevard, Philadelphia, PA 19103. Phone: (800) 222-6374, ext. 271; fax: (215) 557-7154; e-mail: jlonsdale@ndriresource.org. The NDRI Web site is http://www.ndri.com. NCRR - Islet Cell Resource (ICR) With support from NCRR, 10 Islet Cell Resource (ICR) centers isolate, purify, and characterize human pancreatic islets for subsequent transplantation into patients with type I diabetes. The ICR centers procure whole pancreata and acquire relevant data about donors; improve islet isolation and purification techniques; distribute islets for use in approved clinical protocols; and perfect the methods of storage and shipping. In this way, the centers optimize the viability, function, and availability of islets and help clinical researchers capitalize on the recently reported successes in islet transplantation. Information on submitting requests for islet cells can be obtained from Mr. John Kaddis, ICR Coordinating Center Project Manager, City of Hope National Medical Center, 1500 E. Duarte Road, Duarte, California 91010. Phone (626) 359-8111, ext. 63377; fax: (626) 471-7106; e-mail: jkaddis@coh.org. The Coordinating Center hosts a Web site at http://icr.coh.org. NIA - SWAN Repository (longitudinal, multiethnic study of women at midlife including the menopausal transition) The SWAN Repository is a biologic specimen bank of the Study of Women’s Health Across the Nation (SWAN). The SWAN cohort was recruited in 1996/1997 and consists of 3302 African-American, Caucasian, Chinese, Hispanic, and Japanese women. The SWAN Repository contains more than 350,000 blood and urine specimens generated from the study participants’ annual visits (8 visits to date), at which time medical and health history, psychosocial measures, biological measures, and anthropometric data were and are being collected. In addition, a subset of the participants are providing urine samples, collected daily over the length of one menstrual cycle, each year. More than 900,000 of these samples are in the SWAN Repository and are available to researchers who wish to study the midlife and menopausal transition. Additionally, a DNA sample repository is also available and includes DNA as well as transformed B-lymphoblastoid cell lines from more than 1800 of the participants. To learn more about the SWAN Repository and how to apply to use SWAN Repository specimens, contact the Web site at http://www.swanrepository.com or Dr. MaryFran Sowers, University of Michigan, School of Public Health, Epidemiology Dept., (734) 936-3892; e-mail: mfsowers@umich.edu. HUMAN AND ANIMAL CELL AND BIOLOGIC REAGENT RESOURCES NIDDK - National Hormone and Peptide Program The National Hormone and Peptide Program (NHPP) offers peptide hormones and their antisera, tissues (rat hypothalami), and miscellaneous reagents to qualified investigators. These reagents are supplied for research purposes only, not for therapeutic, diagnostic, or commercial uses. These materials can be obtained from Dr. A. F. Parlow of the Harbor-UCLA Medical Center, Research and Education Institute, Torrance, CA. A more complete description of resources within this program is provided in The Endocrine Society journals. Direct scientific-technical inquiry to NHPP Scientific Director, Dr. Al Parlow, at phone: (310) 222-3537; fax: (310) 222-3432; e-mail: parlow@humc.edu. Visit the NHPP Web site at http://www.humc.edu/hormones. NICHD - National Hormone and Pituitary Program (see NIDDK listing) Following is a list of reagents currently available through the resources of NICHD: Androgen receptor and peptide antigen Recombinant monkey (cynomolgus) and baboon luteinizing hormone and follicle-stimulating hormone and antisera. NIA - Aging Cell Bank To facilitate aging research on cells in culture, the NIA provides support for the Aging Cell Bank located at the Coriell Institute for Medical Research in Camden, NJ. The Aged Cell Bank provides fibroblast, lymphoblastoid, and differentiated cell lines from a wide range of human age-related conditions and other mammalian species, as well as DNA from a limited subset of cell lines. For further information, the Aged Cell Bank catalog can be accessed at http://locus.umdnj.edu/nia or contact Dr. Donald Coppock at 1-800-752-3805. NCRR - Various Cell Repositories NCRR maintains the following cell repository resources: National Cell Culture Center, National Stem Cell Resource, and the Yeast Genetic Stock Center. Further information regarding these resources may be obtained through the NCRR Web site at: www.ncrr.nih.gov/ncrrprog/cmpdir/BIOLOG.asp. ANIMAL RESOURCES NIA - Aging Rodent Resources NIA maintains both rat and mouse colonies for use by the scientific community. The animals available range in age from 1 to 36 months. A repository of fresh-frozen tissue from the NIA aged rodent colonies is stocked with tissue from mouse and rat strains, including caloric-restricted BALB/c mice. The NIA also maintains a colony of calorically restricted rodents of selected genotypes, which are available to the scientific community. For further information, please refer to the Aged Rodent information handbook at http://www.nia.nih.gov/ResearchInformation/ScientificResources/AgedRodentColoniesHandbook/ or contact the Office of Biological Resources and Resource Development order desk. Phone: (301) 496-0181; fax: (301) 402-5597; e-mail: rodents@nia.nih.gov. NIA - Aged Rodent Tissue Bank The rodent tissue bank contains flash-frozen tissues from rodents in the NIA aged rodent colonies. Tissue is collected from rodents at 4 or 5 age points throughout the lifespan. Tissue arrays are also available. Information is available at http://www.nia.nih.gov/ResearchInformation/ScientificResources/AgedRodentTissueBankHandbook/. NCRR - Mutant Mouse Regional Resource Centers (MMRRC) The Mutant Mouse Regional Resource Center (MMRRC) Program consists of centers that collectively operate as a one-stop shop to serve the biomedical research community. Investigators who have created select mutant mouse models may donate their models to an MMRRC for broad dissemination to other investigators who request them for noncommercial research investigations related to human health, disease, and treatments. The NCRR Division of Comparative Medicine (DCM) supports the MMRRCs, which are electronically linked through the MMRRC Informatics Coordinating Center (ICC) to function as one facility. The ICC, located at The Jackson Laboratory in Bar Harbor, ME, provides database and other informatics support to the MMRRC to give the research community a single entry point to the program. Further information can be obtained from the Web site at http://www.mmrrc.org, or from Franziska Grieder, D.V.M., Ph.D., Division of Comparative Medicine, NCRR. Phone (301) 435-0744; fax: (301) 480-3819; e-mail: griederf@ncrr.nih.gov. NCRR - Induced Mutant Mouse Resource (IMR) The Induced Mutant Mouse Resource (IMR) at The Jackson Laboratory provides researchers with genetically engineered mice (transgenic, targeted mutant, retroviral insertional mutant, and chemically induced mutant mice). The function of the IMR is to select, import, cryopreserve, maintain, and distribute these important strains of mice to the research community. To improve their value for research, the IMR also undertakes genetic development of stocks, such as transferring mutant genes or transgenes to defined genetic backgrounds and combining transgenes and/or targeted mutations to create new mouse models for research. Over 800 mutant stocks have been accepted by the IMR. Current holdings include models for research on cancer, immunological and inflammatory diseases, neurological diseases and behavioral disorders, cardiovascular diseases, developmental disorders, metabolic and other diseases, reporter (e.g. GFP) and recombinase (e.g. cre/loxP) strains. About 8 strains a month are being added to the IMR holdings. A list of all strains may be obtained from the IMR Web site: www.jax.org/resources/documents/imr/. Online submission forms are also available on that site. All mice can be ordered by calling The Jackson Laboratory’s Customer Service Department at 1-800-422-MICE or (207) 288-5845 or by faxing (207) 288-6150. NIDDK - Mouse Metabolic Phenotyping Centers The mission of the Mouse Metabolic Phenotyping Centers is to provide the scientific community with standardized, high-quality metabolic and physiologic phenotyping services for mouse models of diabetes, diabetic complications, obesity, and related disorders. Researchers can ship mice to one of the four Centers (University of Cincinnati, University of Texas Southwestern Medical Center, Vanderbilt University, and Yale University) and obtain on a fee-for-service basis a range of complex exams used to characterize mouse metabolism, blood composition, energy balance, eating and exercise, organ function and morphology, physiology, and histology. Many tests are done in living animals and are designed to elucidate the subtle hallmarks of metabolic disease. Information, including a complete list of available tests, can be found at www.mmpc.org, or contact Dr. Maren R. Laughlin, NIDDK, at (301) 594-8802; e-mail: Maren.Laughlin@nih.gov; or Dr. Kristin Abraham, NIDDK, at (301) 451-8048; e-mail: abrahamk@extra.niddk.nih.gov. NCRR - National Primate Research Centers (NPRCs) National Primate Research Centers (NPRCs) are a network of eight highly specialized facilities for nonhuman primates (NHP) research. Funded by grants through NCRR’s Division of Comparative Medicine (DCM), each center, staffed with experienced research and support staff, provides the appropriate research environment to foster the development of NHP models of human health and disease for biomedical investigations. The NPRCs are affiliated with academic institutions and are accessible to eligible biomedical and behavioral investigators supported by research project grants from the National Institutes of Health and other sources. Further information may be obtained from the notice, Procedures for Accessing Regional Primate Research Centers, published in the NIH Guide for Grants and Contracts at http://grants2.nih.gov/grants/guide/notice-files/not97-014.html, or from John Harding, Ph.D., National Primate Research Centers and AIDS Animal Models Program, Division of Comparative Medicine, NCRR. Phone: (301) 435-0744; fax: (301) 480-3819; e-mail: hardingj@mail.nih.gov. NIA - Nonhuman Primates, Aging Set-Aside Colony NIA maintains approximately 200 nonhuman primates (M. mulatta) at four National Primate Research Centers (see above) for conducting research on aging. These animals range in age from 18 to 35 years. While these animals are predominantly reserved for non-invasive research, exceptions can be made to this policy. For further information, please contact Dr. Nancy Nadon, Office of Biological Resources and Resource Development, NIA. Phone: (301) 402-7744; fax: (301) 402-0010; e-mail: nadonn@nia.nih.gov. NIA - Nonhuman Primate (NHP) Tissue Bank and Aging Database The NIA developed two new resources to facilitate research in the NHP model. The NHP tissue bank contains fresh-frozen and fixed tissue donated by primate centers around the country. Information is available at http://www.nia.nih.gov/ResearchInformation/ScientificResources/NHPTissueBankHandbook.htm. The Primate Aging Database provides an internet accessible database with data from thousands of primates around the country. It can be used to investigate the effect of age on a variety of parameters, predominantly blood chemistry and husbandry measurements. The site is password protected. The URL is http://ipad.primate.wisc.edu. NIA - Obesity, Diabetes and Aging Animal Resource (USF-ODARC) The NIA supports a colony of aged rhesus macaques, many of which are obese and/or diabetic. This is a long-term colony of monkeys housed at the University of South Florida’s Obesity, Diabetes and Aging Research Center. They have been extensively and longitudinally characterized for general health variables, blood chemistry, food intake, and body weight. Diabetic monkeys are tested daily for urine glucose and ketone levels, and prediabetic monkeys are tested weekly. Data for some of the monkeys extend as far back as 15 years. This unique resource is available for collaborative studies. ODARC has a significant amount of stored tissue collected at necropsy and stored blood/plasma collected longitudinally. Serial blood collection or tissue collection at necropsy can also be performed prospectively. Testing and imaging can also be performed on the monkeys. Inquiries regarding collaborative studies using the ODARC colony should be directed to: Barbara C. Hansen, Ph.D., Director, Obesity, Diabetes and Aging Research Center, University of South Florida, All Children’s Hospital, 801 6th Street South #9340, St. Petersburg, FL 33701. Phone: (727) 767-6993; fax: (727) 767-7443; e-mail: bchansen@aol.com. NCRR - Various Animal Resources NCRR maintains the following animal resources: Animal Models and Genetic Stocks, Chimpanzee Biomedical Research Program, NIH Animal Genetic Resource, and the Specific Pathogen Free Macaque Breeding and Research Program. Further information regarding these and other resources may be obtained through the NCRR Web site at www.ncrr.nih.gov/comparative_med.asp. IN SILICO RESOURCES NIDDK, NHLBI, and NIEHS - Nuclear Receptor Signaling Atlas The Nuclear Receptor Signaling Atlas (NURSA) has created an in silico resource comprised of curated information about Nuclear Receptors, Coregulators, Ligands, and Downstream Targets. NURSA is sponsored by NIH and provides online access through a public webportal at www.NURSA.org. Ease of navigation through a series of molecule pages allows users to make queries about Nuclear Receptors, Coactivators and Corepressors. Additional information about nuclear receptor ligands is provided, as well as primary datasets relating to expression profiling of nuclear receptors, coregulators and downstream targets. The molecule pages are hyperlinked to data contained in external databases, including NCBI, KEGG, UniProt, and others, allowing for detailed data mining. In partnership with The Endocrine Society, NURSA and Molecular Endocrinology (http://mend.endojournals.org/) have reciprocal links designed to enhance publications in Molecular Endocrinology and the information available through the NURSA molecule pages. Links to additional relevant literature citations are from PubMed at the National Library of Medicine. MISCELLANEOUS RESOURCES NCRR - National Gene Vector Laboratories (NGVLs) The National Gene Vector Laboratories (NGVLs), with core funding from NCRR, serve as a resource for researchers to obtain adequate quantities of clinical-grade vectors for human gene transfer protocols. The vector types include retrovirus, lentivirus, adenovirus, adeno-associated virus, herpes-virus, and DNA plasmids. The NGVLs consist of three vector production centers at: Baylor College of Medicine; City of Hope National Medical Center and Beckman Research Institute; and Indiana University, which also serves as the Coordinating Center for all the laboratories. Two additional laboratories conduct toxicology studies for NGVL-approved investigators. These laboratories are located at the Southern Research Institute and the University of Florida. Additional information about the process for requesting vector production and/or pharmacology/toxicology support should be directed to Ms. Lorraine Matheson, NGVL Project Coordinator, Indiana University School of Medicine. Phone: (317) 274-4519; fax: (317) 278-4518; e-mail: lrubin@iupui.edu. The NGVL Coordinating Center at Indiana University also hosts a Web site at http://www.ngvl.org. NCRR - General Clinical Research Centers (GCRCs) The General Clinical Research Centers (GCRCs) are a national network of 82 centers that provide optimal settings for medical investigators to conduct safe, controlled, state-of-the-art in-patient and out-patient studies of both children and adults. GCRCs also provide infrastructure and resources that support several career development opportunities. Investigators who have research project funding from the National Institutes of Health (NIH) and other peer-reviewed sources may apply to use GCRCs. Because the GCRCs support a full spectrum of patient-oriented scientific inquiry, researchers who use these centers can benefit from collaborative, multidisciplinary research opportunities. To request access to a GCRC facility, eligible investigators should initially contact a GCRC program director, listed in the National Center for Research Resources (NCRR) Clinical Research Resources Directory (www.ncrr.nih.gov/ncrrprog/clindir/crdirectory.asp). Further information can be obtained from Anthony R. Hayward, M.D., Director, Division for Clinical Research Resources, National Center for Research Resources at NIH. Phone: (301) 435-0790; e-mail: haywarda@ncrr.nih.gov.

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Resilience is an interdisciplinary concept that has been interrogated and investigated in a number of fields of research and practice including psychology, climate change, trauma studies, education and disaster planning. This paper considers its position within critical disability studies, popular understandings of disability and the emergence of a disability culture. Patrick Martin-Breen and J. Marty Anderies offer a colloquial definition of resilience as: Bouncing back after stress, enduring greater stress, and being less disturbed by a given amount of stress. … To be resilient is to withstand a large disturbance without, in the end, changing, disintegrating, or becoming permanently damaged; to return to normal quickly; and to distort less in the face of such stresses. (1182) Conversely, Glenn E. Richardson argues that resiliency is a ‘metatheory’ that can best be described as ‘growth or adaptation through disruption rather than to just recover or bounce back’ (1184). He argues that resiliency theory has progressed through several stages, from the recognition of characteristics of resilient individuals to an appreciation of the support structures required beyond the level of the individual. In her memoir Resilience, Ann Deveson describes resilience as a concept that people think they understand until they are called upon to define it. Deveson offers many definitions and examples of resilience throughout her book, beginning with stories about disability, people with disability and their experiences of changing levels of social inclusion and exclusion (632). She paints an evocative picture of a young mother whose five year old son has cerebral palsy giving evidence before a Royal Commission into Human Relationships during a period of significant social change involving the deinstitutionalisation of people with disabilities: A few years earlier, this child with cerebral palsy would have been placed in an institution. His mother might not even have seen him. Now she had care of her child but the pendulum had swung in the opposite direction. (632) During the 1980s a number of large institutions caring for people with developmental impairments and psychiatric illnesses were closed in favour of community care (Clear 652). Although giving an appearance of endorsing equality of disabled people in the community, the ‘hidden agenda’ of this initiative was to cut public expenditure on social services (Ellis 163). As a result, an undue burden fell to women who became primary carers with little support such as the woman Deveson remembers. She questions where this young mother mustered such ‘magnificent resilience’ when she had such little support: When he was born, she had been discharged from the hospital with her baby, a feeding formula and a tiny pink plate for the child’s cleft palate. The only advice she received was to come back later to have the plate refitted. Her general practitioner prescribed her sedatives for depression, and she and her husband found their own way to the Royal Blind society by asking a blind man they saw outside a supermarket. She had only learned accidentally from one of the nurses that her baby was blind. ‘He’s mentally retarded too,’ the nurse had added, almost as an afterthought. (632) Thus Deveson’s consideration of resilience includes both an individual’s response to what could be described as tragedy and the importance of social support and the drive to demand it. Despite her child’s impairment and the lack of community resources made available to her family to cope, this young woman was leading public discussion about the plight of people with disabilities and their families in the hopes the government would intervene to help improve the situation (Deveson 632). Indeed, when it comes to the experience of disability, resilience is implied and generally understood to mean an attribute of the individual. However, as resilience theory has progressed, resilience can no longer be considered as existing exclusively within the domain of an individual’s personal qualities. Environmental support structures are vital in fostering resilience (Wilkes). Despite resiliency theory moving on from the level of the individual, popular discourses of resiliency as an individual’s attribute continue to dominate disability. As such, some critical disability commentators have redefined resilience as a response to a disabling social world. My aim in this paper is to explore this discourse by engaging with ideas about disability and resilience that emerge in popular culture. Despite the changing social position of people with disabilities in the community, notions of resilience are often invoked to describe the experience of people with disability and attributes of successful (often considered ‘inspiring’) people with disability. I begin by offering a definition of resilience as it is bound up in notions of inspiration and usually applied to people with disabilities. The second part of the paper explores disability as a cultural signifier to comment on the ways in which disability offers cultural meanings that may work to reassure nondisabled people of their privileged position. Finally, the paper considers interpretations of disability as a personal tragedy before exploring the emergence of a disability culture that recognises the social and cultural oppression experienced by people with disabilities and reworks definitions of resilience as a response to that oppression. Defining Resilience: Good Outcomes in Spite of Serious Threats Disability is often invoked in stories about resilience. Gillian King, Elizabeth Brown, and Linda Smith argue that a clear link exists between resilience and feeling that life is meaningful. They argue that the experiences of people with disabilities can offer a template for how to develop resilience and cope with life changes (King, Brown and Smith 633). According to the Oxford English Dictionary Online, resilience is ‘the action or an act of rebounding or springing back’ (653). King et al add that several concepts are associated with resilience such as hardiness, a sense of coherence and learned optimism (633). Deveson, resilience ‘has come to mean an ability to confront adversity and still find hope and meaning in life’. She comments that it conjures up notions of heroism, endurance and determination (632). Each of these characteristics we might describe as inspirational. It is telling that both Deveson and King et al use people with disabilities as signifiers of resilience in practice. However, Katherine Runswick-Cole and Dan Goodley argue that this definition of resilience has not necessarily been useful to people with disabilities and instead recommend a definition of resilience that Deveson only alludes to. For Runswick-Cole and Goodley resilience can be located in social processes. They argue that a thorough investigation of resilience in the lives of people with disabilities considers the broader social and cultural restrictions placed on top of impairments rather than simply individualising resilience as a character trait of people who can ‘overcome the odds’: An exploration of resilience in the lives of disabled people must, then, focus on what resources are available and who is accessing those resources. Crucially, in seeking to build resilience in the lives of disabled people, this can never simply be a matter of building individual capacity or family support, it must also be a case of challenging social, attitudinal and structural barriers which increase adversity in the lives of disabled people. (634) This is an alternative approach to disability that sees ‘the problem’ located in social structures and inaccessible environments. This so-called social model of disability is based on principles of empowerment and argues that able-bodied mainstream society disables people who have impairments through an inaccessible built environment and the perpetuation of stereotypes and prejudicial attitudes. Disability Dustbins and Inspirational Cripples Arthur Frank, sociologist and author of The Wounded Storyteller, explains that ‘the human body, for all its resilience, is fragile; breakdown is built into it. Bodily predictability, if not the exception, should be regarded as exceptional; contingency ought to be accepted as normative’ (634). Frank argues that we do not want to admit that our bodies are unpredictable and could ‘break down’ at any moment. Those bodies that do break down therefore become representatives of many of the things [the able-bodied, normal world] most fear-tragedy, loss, dark and the unknown. Involuntarily we walk- or more often sit- in the valley of the shadow of death. Contact with us throws up in people's faces the fact of sickness and death in the world … A deformed and paralysed body attacks everyone's sense of well-being and invincibility. (Hunt 186) People with disabilities therefore become loaded cultural signifiers, as Tom Shakespeare argues in Cultural Representations of Disabled People: Dustbins for Disavowal: ‘it is non-disabled people’s embodiment which is the issue: disabled people remind non-disabled people of their own vulnerability’ (139). As a result, people with disabilities are culturally othered. Several disability theorists have argued that this makes the non-disabled feel better about themselves and their tenuous privileged position (Barnes; Ellis; Kumari Campbell; Oliver, Goggin and Newell; Shakespeare). Disability, as a concept, is both everywhere and nowhere. Generally considered a medical experience or personal tragedy, the discipline of critical disability studies has emerged to question why disability is considered an inherently negative experience and if there is more to disability than a body that has something wrong with it. Fiona Kumari Campbell suggests ableism – ‘the network of beliefs, processes and practices that produces a particular kind of self and body (the corporeal standard) that is projected as the perfect, species typical and therefore essential and fully human’ – is repeatedly performed in our culture. This cultural project is difficult to sustain because by their very nature all bodies are out of control. People with disability are an acute reminder of the temporariness of an able bodied ontology (650). In order to maintain this division and network of beliefs, the idea that disability is a personal tragedy rather than a set of social relations designed to exclude some bodies but not others is culturally reproduced through stereotypes such as the idea that people with disabilities who achieve both ordinary and extraordinary things are sources of inspiration. Resilience as a personal quality is implicated in this stereotype. In a powerful Ramp Up blog that was republished on the ABC’s Drum and the influential popular culture/mummy blogging site website Mamamia, Stella Young takes issues with the media’s framing of disability as inspirational: We all learn how to use the bodies we're born with, or learn to use them in an adjusted state, whether those bodies are considered disabled or not. So that image of the kid drawing a picture with the pencil held in her mouth instead of her hand? That's just the best way for her, in her body, to do it. For her, it's normal. I can't help but wonder whether the source of this strange assumption that living our lives takes some particular kind of courage is the news media, an incredibly powerful tool in shaping the way we think about disability. Most journalists seem utterly incapable of writing or talking about a person with a disability without using phrases like "overcoming disability", "brave", "suffers from", "defying the odds", "wheelchair bound" or, my personal favourite, "inspirational". If we even begin to question the way we're labelled, we slide immediately to the other end of the scale and become "bitter" and "ungrateful". We fail to be what people expect. (610) These phrases, that Young claims the media rely on to isolate people with disabilities, are synonyms for the qualities Deveson attributes to resilient individuals (632). As Beth Haller notes, although disabled activists and academics attempt to progress important political work, the news media continue to frame people with disability as courageous and inspirational simply for living their lives (216). By comparison, disability theorist Irving Zola describes rejecting his leg braces (symbolic of his professional status) electing instead to use a wheelchair: If we lived in a less healthiest, capitalist, and hierarchal society, which spent less time finding ways to exclude and disenfranchise people and more time finding ways to include and enhance the potentialities of everyone, then there wouldn’t have been so much for me to overcome. (654) Harilyn Russo agrees, and in her memoir Don’t Call Me Inspirational highlights the socially created barriers put in her way and the ways these are ignored in favour of individualising social disablement as something inspirational people ‘overcome’: I’ll tell you why I am inspirational: I put up with the barriers, the barricades, the bullsh*t you put between us to avoid confronting something—probably yourself—and still pay the rent on time and savor dark chocolate. Now that takes real courage. (651) Throughout her book, Russo seeks to ‘overcome disability prejudice’ rather than ‘overcome disability’. Russo establishes herself and her experiences as normal and every day while articulating the tedium she finds in being pigeon holed as inspirational. These authors are constructing a new way of thinking about disability. Michael Oliver first described this as the ‘social model of disability’ in 1981. He sought to overturn the pathologisation of disability by giving people ‘a way of applying the idea that it was society not people with impairments that should be the target for professional intervention and practice’ (Runswick-Cole and Goodley 634). Resilience: A Key Concept Fiona Kumari Campbell questions whether resilience is a useful concept in the context of disability and reflects on its use to obscure “the ‘real’ problem, namely disability oppression” (649). She interrogates traditional definitions of resilience as they draw on notions of good outcomes in spite of risk factors or experiences of severe trauma and calls for an understanding of the interactive and dynamic features of resilience as opposed to ‘individualised psychological attributes’. Thus, individualised notions of resilience as they are implicated in the cultural stories of inspirational people with disabilities are embedded within the ableist relations that Kumari Campbell seeks to expose. In Empowerment, Self-Advocacy and Resilience, Dan Goodley argues that resilience is a key concept that has repeatedly emerged throughout his research into disability and self-advocacy. He draws on the reflections of people with disabilities to offer a re-definition of resilience as a response to a disabling society that includes five interrelated aspects (648). First is resilience as contextual, which recognises resilience as the result of the contexts in which it emerges, including through relationships with others and the experience of disabling and enabling environments. Secondly, resilience complicates preconceived notions about people with disabilities such as the view that they are passive. Goodley’s third feature of resilience is optimism. He notes resistance toward oppression as a key characteristic of optimistic resilience. Goodley again considers the importance of interpersonal relationships and group identity when he argues that the fourth feature of resilience relies on people with disabilities forming relationships with each other and group identities to question their oppression. Finally, Goodley argues ‘resilience is indicative of disablement’ and suggests that people with disability must be resilient in everyday life because we live in a disabling society. Kumari Campbell posits that individualised notions of resilience are a ‘cop out’ designed to ‘distract and defuse the reality of people labouring under very difficult circ*mstances of which the solution is better access to quality services’. She is hopeful, like Goodley, that resilience can be redefined as a political project, and encourages people with disabilities to develop a critical consciousness and find a new sense of community through art, humour and peer support. Therefore, according to Kumari Campbell and Goodley, resilience can be redefined as a response to social disablement rather than bodily impairment. Disability Culture: Acts of Resilience in a Disabling Society Russo and Zola’s work is part of a disability culture that has emerged in response to narrow ways of understanding disability. Steven Brown emphasises the importance of experience and personal identity in his definition of disability culture: People with disabilities have forged a group identity. We share a common history of oppression and a common bond of resilience. We generate art, music, literature, and other expressions of our lives and our culture, infused from our experience of disability. Most importantly, we are proud of ourselves as people with disabilities. We claim our disabilities with pride as part of our identity. (520) Brown’s definition of disability culture therefore draws on all five of Goodley’s features of resilience. Disability culture is contextual, complicating, optimistic, interpersonal and indicative of disablement. The forging of a group identity reveals the resilience of disability culture as contextual and interpersonal. The creation of art, music, literature and other cultural artefacts reveals resilience as optimistic. The notion that people with disabilities are proud of their identity complicates traditional understandings of disability as a personal tragedy. Brown’s emphasis on the common history of the oppression of people with disabilities, as it initiated the whole disability culture movement, is ‘indicative of disablement’. The bonds of resilience that create the disability cultural movement are a result of the social oppression of people with disabilities (Gill; Martin; Brown; Goodley). Conclusion Whereas people with disabilities going about their every day lives have often been considered inspirational and as possessing resilient qualities, a new disability culture is emerging that repositions the resilience of people with disabilities as a political response to social oppression. Drawing on Runswick-Cole and Goodley’s argument that individualising qualities of resilience in inspirational people with disabilities has not benefitted people with disabilities, this paper sought to reveal the importance of resilience as a response to social oppression. People with disabilities in their formation of a disability cultural movement are reworking and redefining resilience as a response to oppression. Throughout this paper I have drawn on the reflections of a number of people with disabilities to illustrate the emergence of a disability culture as it has begun the work of redefining resilience as a political project that “‘outs’ the problems that disabled people face and names and prioritises the concerns” (Kumari Campbell 649). As Goodley argues, people with disabilities have developed a politics of resilience ‘in the face of a disabling world’. References Barnes, Colin. “Disabling Imagery and the Media: An Exploration of the Principles for Media Representations of Disabled People.” 1992. Brown, Steven. “What Is Disability Culture?” Disability Studies Quarterly 22.2 (2002). Clear, Mike. Promises, Promises: Disability and Terms of Inclusion. Leichhardt: Federation Press, 2000. Deveson, Ann. Resilience. Crows Nest: Allen & Unwin, 2003. Ellis, Katie. Disabling Diversity: The Social Construction of Disability in 1990s Australian National Cinema. Saarbrücken, Germany: VDM Verlag, 2008. Frank, Arthur. The Wounded Storyteller: Body, Illness and Ethics. Chicago: The University of Chicago Press, 1995. Gill, Carol. “A Psychological View of Disability Culture.” Disability Studies Quarterly (Fall 1995). ———. "Disability in Australia: Exposing a Social Apartheid." Sydney: University of New South Wales, 2005. Goodley, Dan. “Empowerment, Self-Advocacy and Resilience.” Journal of Intellectual Disabilities 9.4 (2005): 333-343. Haller, Beth. Representing Disability in an Ableist World: Essays on Mass Media. Louisville, KY: Avocado Press, 2010. Hunt, Paul. “A Critical Condition.” Stigma: The Experience of Disability. Ed. Paul Hunt. London: Geoffrey Chapman, 1966. King, Gillian, Elizabeth Brown, and Linda Smith. “Resilience: Learning from People with Disabilities and the Turning Points in Their Lives.” Health Psychology. Ed. Barbara, Tinsley. Westport, CT: Praeger, 2003. Kumari Campbell, Fiona. Contours of Ableism: The Production of Disability and Abledness. New York: Palgrave Macmillian, 2009. ———. “Out of the Shadows: Resilience and Living with Ableism Seminar.” The University of Dundee, 13 Sep. 2010. Martin-Breen, Patrick, and J. Marty Anderies. “Resilience: A Literature Review.” The Rockefeller Foundation, 2011. Martin, Douglas. Disability Culture: Eager to Bite the Hands That Would Feed Them. New York Times, 1997. Oliver, Mike. “Understanding Disability: From Theory to Practice.” Houndsmill, Basingstoke: Macmillian, 1996. Oxford English Dictionary. “resilience, n.” Oxford University Press. Richardson, G. E. “The Metatheory of Resilience and Resiliency,” Journal of Clinical Psychology 58.3. (2002): 307-321. Rousso, Harilyn. "Don’t Call Me Inspirational: A Disabled Feminist Talks Back." Philadelphia: Temple University Press. 2013. Runswick-Cole, Katherine, and Dan Goodley. “Resilience: A Disability Studies and Community Psychology Approach.” Social and Personality Psychology Compass 7. 2 (2013): 67-78. Shakespeare, Tom. “Cultural Representation of Disabled People: Dustbins for Disavowal?” Disability & Society 9.3 (1994): 283-299. Wilkes, Glenda. “Introduction – A Second Generation of Resilience Research.” Journal of Clinical Psychology 58.3 (2002): 229-232. Young, Stella. “We’re Not Here for Your Inspiration.” Ramp Up 2012. Zola, Irving. Missing Pieces: A Chronicle of Living with a Disability. Philadelphia: Temple University Press. 1982.

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Abstract:

Introduction The aim of this paper is to examine whether recent catastrophic tsunamis have driven a cultural shift in the awareness of Australians to the danger associated with this natural hazard and whether the media have contributed to the emergence of “tsunami” as a new Australian catastrophe. Prior to the devastating 2004 Indian Ocean Tsunami disaster (2004 IOT), tsunamis as a type of hazard capable of generating widespread catastrophe were not well known by the general public and had barely registered within the wider scientific community. As a university based lecturer who specialises in natural disasters, I always started my public talks or student lectures with an attempt at a detailed description of what a tsunami is. With little high quality visual and media imagery to use, this was not easy. The Australian geologist Ted Bryant was right when he named his 2001 book Tsunami: The Underrated Hazard. That changed on 26 December 2004 when the third largest earthquake ever recorded occurred northwest of Sumatra, Indonesia, triggering the most catastrophic tsunami ever experienced. The 2004 IOT claimed at least 220,000 lives—probably more—injured tens of thousands, destroyed widespread coastal infrastructure and left millions homeless. Beyond the catastrophic impacts, this tsunami was conspicuous because, for the first time, such a devastating tsunami was widely captured on video and other forms of moving and still imagery. This occurred for two reasons. Firstly, the tsunami took place during daylight hours in good weather conditions—factors conducive to capturing high quality visual images. Secondly, many people—both local residents and westerners who were on beachside holidays and at the coast at multiple locations impacted by the tsunami—were able to capture images of the tsunami on their cameras, videos, and smart phones. The extensive media coverage—including horrifying television, video, and still imagery that raced around the globe in the hours and days after the tsunami, filling our television screens, homes, and lives regardless of where we lived—had a dramatic effect. This single event drove a quantum shift in the wider cultural awareness of this type of catastrophe and acted as a catalyst for improved individual and societal understanding of the nature and effects of disaster landscapes. Since this event, there have been several notable tsunamis, including the March 2011 Japan catastrophe. Once again, this event occurred during daylight hours and was widely captured by multiple forms of media. These events have resulted in a cascade of media coverage across television, radio, movie, and documentary channels, in the print media, online, and in the popular press and on social media—very little of which was available prior to 2004. Much of this has been documentary and informative in style, but there have also been numerous television dramas and movies. For example, an episode of the popular American television series CSI Miami entitled Crime Wave (Season 3, Episode 7) featured a tsunami, triggered by a volcanic eruption in the Atlantic and impacting Miami, as the backdrop to a standard crime-filled episode ("CSI," IMDb; Wikipedia). In 2010, Warner Bros Studios released the supernatural drama fantasy film Hereafter directed by Clint Eastwood. In the movie, a television journalist survives a near-death experience during the 2004 IOT in what might be the most dramatic, and probably accurate, cinematic portrayal of a tsunami ("Hereafter," IMDb; Wikipedia). Thus, these creative and entertaining forms of media, influenced by the catastrophic nature of tsunamis, are impetuses for creativity that also contribute to a transformation of cultural knowledge of catastrophe. The transformative potential of creative media, together with national and intergovernmental disaster risk reduction activity such as community education, awareness campaigns, community evacuation planning and drills, may be indirectly inferred from rapid and positive community behavioural responses. By this I mean many people in coastal communities who experience strong earthquakes are starting a process of self-evacuation, even if regional tsunami warning centres have not issued an alert or warning. For example, when people in coastal locations in Samoa felt a large earthquake on 29 September 2009, many self-evacuated to higher ground or sought information and instruction from relevant authorities because they expected a tsunami to occur. When interviewed, survivors stated that the memory of television and media coverage of the 2004 IOT acted as a catalyst for their affirmative behavioural response (Dominey-Howes and Thaman 1). Thus, individual and community cultural understandings of the nature and effects of tsunami catastrophes are incredibly important for shaping resilience and reducing vulnerability. However, this cultural shift is not playing out evenly.Are Australia and Its People at Risk from Tsunamis?Prior to the 2004 IOT, there was little discussion about, research in to, or awareness about tsunamis and Australia. Ted Bryant from the University of Wollongong had controversially proposed that Australia had been affected by tsunamis much bigger than the 2004 IOT six to eight times during the last 10,000 years and that it was only a matter of when, not if, such an event repeated itself (Bryant, "Second Edition"). Whilst his claims had received some media attention, his ideas did not achieve widespread scientific, cultural, or community acceptance. Not-with-standing this, Australia has been affected by more than 60 small tsunamis since European colonisation (Dominey-Howes 239). Indeed, the 2004 IOT and 2006 Java tsunami caused significant flooding of parts of the Northern Territory and Western Australia (Prendergast and Brown 69). However, the affected areas were sparsely populated and experienced very little in the way of damage or loss. Thus they did not cross any sort of critical threshold of “catastrophe” and failed to achieve meaningful community consciousness—they were not agents of cultural transformation.Regardless of the risk faced by Australia’s coastline, Australians travel to, and holiday in, places that experience tsunamis. In fact, 26 Australians were killed during the 2004 IOT (DFAT) and five were killed by the September 2009 South Pacific tsunami (Caldwell et al. 26). What Role Do the Media Play in Preparing for and Responding to Catastrophe?Regardless of the type of hazard/disaster/catastrophe, the key functions the media play include (but are not limited to): pre-event community education, awareness raising, and planning and preparations; during-event preparation and action, including status updates, evacuation warnings and notices, and recommendations for affirmative behaviours; and post-event responses and recovery actions to follow, including where to gain aid and support. Further, the media also play a role in providing a forum for debate and post-event analysis and reflection, as a mechanism to hold decision makers to account. From time to time, the media also provide a platform for examining who, if anyone, might be to blame for losses sustained during catastrophes and can act as a powerful conduit for driving socio-cultural, behavioural, and policy change. Many of these functions are elegantly described and a series of best practices outlined by The Caribbean Disaster Emergency Management Agency in a tsunami specific publication freely available online (CDEMA 1). What Has Been the Media Coverage in Australia about Tsunamis and Their Effects on Australians?A manifest contents analysis of media material covering tsunamis over the last decade using the framework of Cox et al. reveals that coverage falls into distinctive and repetitive forms or themes. After tsunamis, I have collected articles (more than 130 to date) published in key Australian national broadsheets (e.g., The Australian and Sydney Morning Herald) and tabloid (e.g., The Telegraph) newspapers and have watched on television and monitored on social media, such as YouTube and Facebook, the types of coverage given to tsunamis either affecting Australia, or Australians domestically and overseas. In all cases, I continued to monitor and collect these stories and accounts for a fixed period of four weeks after each event, commencing on the day of the tsunami. The themes raised in the coverage include: the nature of the event. For example, where, when, why did it occur, how big was it, and what were the effects; what emergency response and recovery actions are being undertaken by the emergency services and how these are being provided; exploration of how the event was made worse or better by poor/good planning and prior knowledge, action or inaction, confusion and misunderstanding; the attribution of blame and responsibility; the good news story—often the discovery and rescue of an “iconic victim/survivor”—usually a child days to weeks later; and follow-up reporting weeks to months later and on anniversaries. This coverage generally focuses on how things are improving and is often juxtaposed with the ongoing suffering of victims. I select the word “victims” purposefully for the media frequently prefer this over the more affirmative “survivor.”The media seldom carry reports of “behind the scenes” disaster preparatory work such as community education programs, the development and installation of warning and monitoring systems, and ongoing training and policy work by response agencies and governments since such stories tend to be less glamorous in terms of the disaster gore factor and less newsworthy (Cox et al. 469; Miles and Morse 365; Ploughman 308).With regard to Australians specifically, the manifest contents analysis reveals that coverage can be described as follows. First, it focuses on those Australians killed and injured. Such coverage provides elements of a biography of the victims, telling their stories, personalising these individuals so we build empathy for their suffering and the suffering of their families. The Australian victims are not unknown strangers—they are named and pictures of their smiling faces are printed or broadcast. Second, the media describe and catalogue the loss and ongoing suffering of the victims (survivors). Third, the media use phrases to describe Australians such as “innocent victims in the wrong place at the wrong time.” This narrative establishes the sense that these “innocents” have been somehow wronged and transgressed and that suffering should not be experienced by them. The fourth theme addresses the difficulties Australians have in accessing Consular support and in acquiring replacement passports in order to return home. It usually goes on to describe how they have difficulty in gaining access to accommodation, clothing, food, and water and any necessary medicines and the challenges associated with booking travel home and the complexities of communicating with family and friends. The last theme focuses on how Australians were often (usually?) not given relevant safety information by “responsible people” or “those in the know” in the place where they were at the time of the tsunami. This establishes a sense that Australians were left out and not considered by the relevant authorities. This narrative pays little attention to the wide scale impact upon and suffering of resident local populations who lack the capacity to escape the landscape of catastrophe.How Does Australian Media Coverage of (Tsunami) Catastrophe Compare with Elsewhere?A review of the available literature suggests media coverage of catastrophes involving domestic citizens is similar globally. For example, Olofsson (557) in an analysis of newspaper articles in Sweden about the 2004 IOT showed that the tsunami was framed as a Swedish disaster heavily focused on Sweden, Swedish victims, and Thailand, and that there was a division between “us” (Swedes) and “them” (others or non-Swedes). Olofsson (557) described two types of “us” and “them.” At the international level Sweden, i.e. “us,” was glorified and contrasted with “inferior” countries such as Thailand, “them.” Olofsson (557) concluded that mediated frames of catastrophe are influenced by stereotypes and nationalistic values.Such nationalistic approaches preface one type of suffering in catastrophe over others and delegitimises the experiences of some survivors. Thus, catastrophes are not evenly experienced. Importantly, Olofsson although not explicitly using the term, explains that the underlying reason for this construction of “them” and “us” is a form of imperialism and colonialism. Sharp refers to “historically rooted power hierarchies between countries and regions of the world” (304)—this is especially so of western news media reporting on catastrophes within and affecting “other” (non-western) countries. Sharp goes much further in relation to western representations and imaginations of the “war on terror” (arguably a global catastrophe) by explicitly noting the near universal western-centric dominance of this representation and the construction of the “west” as good and all “non-west” as not (299). Like it or not, the western media, including elements of the mainstream Australian media, adhere to this imperialistic representation. Studies of tsunami and other catastrophes drawing upon different types of media (still images, video, film, camera, and social media such as Facebook, Twitter, and the like) and from different national settings have explored the multiple functions of media. These functions include: providing information, questioning the authorities, and offering a chance for transformative learning. Further, they alleviate pain and suffering, providing new virtual communities of shared experience and hearing that facilitate resilience and recovery from catastrophe. Lastly, they contribute to a cultural transformation of catastrophe—both positive and negative (Hjorth and Kyoung-hwa "The Mourning"; "Good Grief"; McCargo and Hyon-Suk 236; Brown and Minty 9; Lau et al. 675; Morgan and de Goyet 33; Piotrowski and Armstrong 341; Sood et al. 27).Has Extensive Media Coverage Resulted in an Improved Awareness of the Catastrophic Potential of Tsunami for Australians?In playing devil’s advocate, my simple response is NO! This because I have been interviewing Australians about their perceptions and knowledge of tsunamis as a catastrophe, after events have occurred. These events have triggered alerts and warnings by the Australian Tsunami Warning System (ATWS) for selected coastal regions of Australia. Consequently, I have visited coastal suburbs and interviewed people about tsunamis generally and those events specifically. Formal interviews (surveys) and informal conversations have revolved around what people perceived about the hazard, the likely consequences, what they knew about the warning, where they got their information from, how they behaved and why, and so forth. I have undertaken this work after the 2007 Solomon Islands, 2009 New Zealand, 2009 South Pacific, the February 2010 Chile, and March 2011 Japan tsunamis. I have now spoken to more than 800 people. Detailed research results will be presented elsewhere, but of relevance here, I have discovered that, to begin with, Australians have a reasonable and shared cultural knowledge of the potential catastrophic effects that tsunamis can have. They use terms such as “devastating; death; damage; loss; frightening; economic impact; societal loss; horrific; overwhelming and catastrophic.” Secondly, when I ask Australians about their sources of information about tsunamis, they describe the television (80%); Internet (85%); radio (25%); newspaper (35%); and social media including YouTube (65%). This tells me that the media are critical to underpinning knowledge of catastrophe and are a powerful transformative medium for the acquisition of knowledge. Thirdly, when asked about where people get information about live warning messages and alerts, Australians stated the “television (95%); Internet (70%); family and friends (65%).” Fourthly and significantly, when individuals were asked what they thought being caught in a tsunami would be like, responses included “fun (50%); awesome (75%); like in a movie (40%).” Fifthly, when people were asked about what they would do (i.e., their “stated behaviour”) during a real tsunami arriving at the coast, responses included “go down to the beach to swim/surf the tsunami (40%); go to the sea to watch (85%); video the tsunami and sell to the news media people (40%).”An independent and powerful representation of the disjunct between Australians’ knowledge of the catastrophic potential of tsunamis and their “negative” behavioral response can be found in viewing live television news coverage broadcast from Sydney beaches on the morning of Sunday 28 February 2010. The Chilean tsunami had taken more than 14 hours to travel from Chile to the eastern seaboard of Australia and the ATWS had issued an accurate warning and had correctly forecast the arrival time of the tsunami (approximately 08.30 am). The television and radio media had dutifully broadcast the warning issued by the State Emergency Services. The message was simple: “Stay out of the water, evacuate the beaches and move to higher ground.” As the tsunami arrived, those news broadcasts showed volunteer State Emergency Service personnel and Surf Life Saving Australia lifeguards “begging” with literally hundreds (probably thousands up and down the eastern seaboard of Australia) of members of the public to stop swimming in the incoming tsunami and to evacuate the beaches. On that occasion, Australians were lucky and the tsunami was inconsequential. What do these responses mean? Clearly Australians recognise and can describe the consequences of a tsunami. However, they are not associating the catastrophic nature of tsunami with their own lives or experience. They are avoiding or disallowing the reality; they normalise and dramaticise the event. Thus in Australia, to date, a cultural transformation about the catastrophic nature of tsunami has not occurred for reasons that are not entirely clear but are the subject of ongoing study.The Emergence of Tsunami as a “New Australian Catastrophe”?As a natural disaster expert with nearly two decades experience, in my mind tsunami has emerged as a “new Australian catastrophe.” I believe this has occurred for a number of reasons. Firstly, the 2004 IOT was devastating and did impact northwestern Australia, raising the flag on this hitherto, unknown threat. Australia is now known to be vulnerable to the tsunami catastrophe. The media have played a critical role here. Secondly, in the 2004 IOT and other tsunamis since, Australians have died and their deaths have been widely reported in the Australian media. Thirdly, the emergence of various forms of social media has facilitated an explosion in information and material that can be consumed, digested, reimagined, and normalised by Australians hungry for the gore of catastrophe—it feeds our desire for catastrophic death and destruction. Fourthly, catastrophe has been creatively imagined and retold for a story-hungry viewing public. Whether through regular television shows easily consumed from a comfy chair at home, or whilst eating popcorn at a cinema, tsunami catastrophe is being fed to us in a way that reaffirms its naturalness. Juxtaposed against this idea though is that, despite all the graphic imagery of tsunami catastrophe, especially images of dead children in other countries, Australian media do not and culturally cannot, display images of dead Australian children. Such images are widely considered too gruesome but are well known to drive changes in cultural behaviour because of the iconic significance of the child within our society. As such, a cultural shift has not yet occurred and so the potential of catastrophe remains waiting to strike. Fifthly and significantly, given the fact that large numbers of Australians have not died during recent tsunamis means that again, the catastrophic potential of tsunamis is not yet realised and has not resulted in cultural changes to more affirmative behaviour. Lastly, Australians are probably more aware of “regular or common” catastrophes such as floods and bush fires that are normal to the Australian climate system and which are endlessly experienced individually and culturally and covered by the media in all forms. The Australian summer of 2012–13 has again been dominated by floods and fires. If this idea is accepted, the media construct a uniquely Australian imaginary of catastrophe and cultural discourse of disaster. The familiarity with these common climate catastrophes makes us “culturally blind” to the catastrophe that is tsunami.The consequences of a major tsunami affecting Australia some point in the future are likely to be of a scale not yet comprehensible. References Australian Broadcasting Corporation (ABC). "ABC Net Splash." 20 Mar. 2013 ‹http://splash.abc.net.au/media?id=31077›. Brown, Philip, and Jessica Minty. “Media Coverage and Charitable Giving after the 2004 Tsunami.” Southern Economic Journal 75 (2008): 9–25. Bryant, Edward. Tsunami: The Underrated Hazard. First Edition, Cambridge: Cambridge UP, 2001. ———. Tsunami: The Underrated Hazard. Second Edition, Sydney: Springer-Praxis, 2008. Caldwell, Anna, Natalie Gregg, Fiona Hudson, Patrick Lion, Janelle Miles, Bart Sinclair, and John Wright. “Samoa Tsunami Claims Five Aussies as Death Toll Rises.” The Courier Mail 1 Oct. 2009. 20 Mar. 2013 ‹http://www.couriermail.com.au/news/samoa-tsunami-claims-five-aussies-as-death-toll-rises/story-e6freon6-1225781357413›. CDEMA. "The Caribbean Disaster Emergency Management Agency. Tsunami SMART Media Web Site." 18 Dec. 2012. 20 Mar. 2013 ‹http://weready.org/tsunami/index.php?Itemid=40&id=40&option=com_content&view=article›. Cox, Robin, Bonita Long, and Megan Jones. “Sequestering of Suffering – Critical Discourse Analysis of Natural Disaster Media Coverage.” Journal of Health Psychology 13 (2008): 469–80. “CSI: Miami (Season 3, Episode 7).” International Movie Database (IMDb). ‹http://www.imdb.com/title/tt0534784/›. 9 Jan. 2013. "CSI: Miami (Season 3)." Wikipedia. ‹http://en.wikipedia.org/wiki/CSI:_Miami_(season_3)#Episodes›. 21 Mar. 2013. DFAT. "Department of Foreign Affairs and Trade Annual Report 2004–2005." 8 Jan. 2013 ‹http://www.dfat.gov.au/dept/annual_reports/04_05/downloads/2_Outcome2.pdf›. Dominey-Howes, Dale. “Geological and Historical Records of Australian Tsunami.” Marine Geology 239 (2007): 99–123. Dominey-Howes, Dale, and Randy Thaman. “UNESCO-IOC International Tsunami Survey Team Samoa Interim Report of Field Survey 14–21 October 2009.” No. 2. Australian Tsunami Research Centre. University of New South Wales, Sydney. "Hereafter." International Movie Database (IMDb). ‹http://www.imdb.com/title/tt1212419/›. 9 Jan. 2013."Hereafter." Wikipedia. ‹http://en.wikipedia.org/wiki/Hereafter (film)›. 21 Mar. 2013. Hjorth, Larissa, and Yonnie Kyoung-hwa. “The Mourning After: A Case Study of Social Media in the 3.11 Earthquake Disaster in Japan.” Television and News Media 12 (2011): 552–59. ———, and Yonnie Kyoung-hwa. “Good Grief: The Role of Mobile Social Media in the 3.11 Earthquake Disaster in Japan.” Digital Creativity 22 (2011): 187–99. Lau, Joseph, Mason Lau, and Jean Kim. “Impacts of Media Coverage on the Community Stress Level in Hong Kong after the Tsunami on 26 December 2004.” Journal of Epidemiology and Community Health 60 (2006): 675–82. McCargo, Duncan, and Lee Hyon-Suk. “Japan’s Political Tsunami: What’s Media Got to Do with It?” International Journal of Press-Politics 15 (2010): 236–45. Miles, Brian, and Stephanie Morse. “The Role of News Media in Natural Disaster Risk and Recovery.” Ecological Economics 63 (2007): 365–73. Morgan, Olive, and Charles de Goyet. “Dispelling Disaster Myths about Dead Bodies and Disease: The Role of Scientific Evidence and the Media.” Revista Panamericana de Salud Publica-Pan American Journal of Public Health 18 (2005): 33–6. Olofsson, Anna. “The Indian Ocean Tsunami in Swedish Newspapers: Nationalism after Catastrophe.” Disaster Prevention and Management 20 (2011): 557–69. Piotrowski, Chris, and Terry Armstrong. “Mass Media Preferences in Disaster: A Study of Hurricane Danny.” Social Behavior and Personality 26 (1998): 341–45. Ploughman, Penelope. “The American Print News Media Construction of Five Natural Disasters.” Disasters 19 (1995): 308–26. Prendergast, Amy, and Nick Brown. “Far Field Impact and Coastal Sedimentation Associated with the 2006 Java Tsunami in West Australia: Post-Tsunami Survey at Steep Point, West Australia.” Natural Hazards 60 (2012): 69–79. Sharp, Joanne. “A Subaltern Critical Geopolitics of The War on Terror: Postcolonial Security in Tanzania.” Geoforum 42 (2011): 297–305. Sood, Rahul, Stockdale, Geoffrey, and Everett Rogers. “How the News Media Operate in Natural Disasters.” Journal of Communication 37 (1987): 27–41.

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Abstract:

Being a celebrity sure ain’t what it used to be. Or, perhaps more accurately, the process of maintaining a stable star persona isn’t what it used to be. With the rise of new media technologies—including digital photography and video production, gossip blogging, social networking sites, and streaming video—there has been a rapid proliferation of voices which serve to articulate stars’ personae. This panoply of sanctioned and unsanctioned discourses has brought the coherence and stability of the star’s image into crisis, with an evermore-heightened loop forming recursively between celebrity gossip and scandals, on the one hand, and, on the other, new media-enabled speculation and commentary about these scandals and gossip-pieces. Of course, while no subject has a single meaning, Hollywood has historically expended great energy and resources to perpetuate the myth that the star’s image is univocal. In the present moment, however, studios’s traditional methods for discursive control have faltered, such that celebrities have found it necessary to take matters into their own hands, using new media technologies, particularly Twitter, in an attempt to stabilise that most vital currency of their trade, their professional/public persona. In order to fully appreciate the significance of this new mode of publicity management, and its larger implications for contemporary subjectivity writ large, we must first come to understand the history of Hollywood’s approach to celebrity publicity and image management.A Brief History of Hollywood PublicityThe origins of this effort are nearly as old as Hollywood itself, for, as Richard DeCordova explains, the celebrity scandals of the 1920s threatened to disrupt the economic vitality of the incipient industry such that strict, centralised image control appeared as a necessary imperative to maintain a consistently reliable product. The Fatty Arbuckle murder trial was scandalous not only for its subject matter (a murder suffused with illicit and shadowy sexual innuendo) but also because the event revealed that stars, despite their mediated larger-than-life images, were not only as human as the rest of us, but that, in fact, they were capable of profoundly inhuman acts. The scandal, then, was not so much Arbuckle’s crime, but the negative pall it cast over the Hollywood mythos of glamour and grace. The studios quickly organised an industry-wide regulatory agency (the MPPDA) to counter potentially damaging rhetoric and ward off government intervention. Censorship codes and morality clauses were combined with well-funded publicity departments in an effort that successfully shifted the locus of the star’s extra-filmic discursive construction from private acts—which could betray their screen image—to information which served to extend and enhance the star’s pre-existing persona. In this way, the sanctioned celebrity knowledge sphere became co-extensive with that of commercial culture itself; the star became meaningful only by knowing how she spent her leisure time and the type of make-up she used. The star’s identity was not found via unsanctioned intrusion, but through studio-sanctioned disclosure, made available in the form of gossip columns, newsreels, and fan magazines. This period of relative stability for the star's star image was ultimately quite brief, however, as the collapse of the studio system in the late 1940s and the introduction of television brought about a radical, but gradual, reordering of the star's signifying potential. The studios no longer had the resources or incentive to tightly police star images—the classic age of stardom was over. During this period of change, an influx of alternative voices and publications filled the discursive void left by the demise of the studios’s regimented publicity efforts, with many of these new outlets reengaging older methods of intrusion to generate a regular rhythm of vendible information about the stars.The first to exploit and capitalize on star image instability was Robert Harrison, whose Confidential Magazine became the leading gossip publication of the 1950s. Unlike its fan magazine rivals, which persisted in portraying the stars as morally upright and wholesome, Confidential pledged on the cover of each issue to “tell the facts and name the names,” revealing what had been theretofore “confidential.” In essence, through intrusion, Confidential reasserted scandal as the true core of the star, simultaneously instituting incursion and surveillance as the most direct avenue to the “kernel” of the celebrity subject, obtaining stories through associations with call girls, out-of-work starlettes, and private eyes. As extra-textual discourses proliferated and fragmented, the contexts in which the public encountered the star changed as well. Theatre attendance dropped dramatically, and as the studios sold their film libraries to television, the stars, formerly available only on the big screen and in glamour shots, were now intercut with commercials, broadcast on grainy sets in the domestic space. The integrity—or at least the illusion of integrity—of the star image was forever compromised. As the parameters of renown continued to expand, film stars, formally distinguished from all other performers, migrated to television. The landscape of stardom was re-contoured into the “celebrity sphere,” a space that includes television hosts, musicians, royals, and charismatic politicians. The revamped celebrity “game” was complex, but still playabout: with a powerful agent, a talented publicist, and a check on drinking, drug use, and extra-marital affairs, a star and his or her management team could negotiate a coherent image. Confidential was gone, The National Inquirer was muzzled by libel laws, and People and E.T.—both sheltered within larger media companies—towed the publicists’s line. There were few widely circulated outlets through which unauthorised voices could gain traction. Old-School Stars and New Media Technologies: The Case of Tom CruiseYet with the relentless arrival of various news media technologies beginning in the 1980s and continuing through the present, maintaining tight celebrity image control began to require the services of a phalanx of publicists and handlers. Here, the example of Tom Cruise is instructive: for nearly twenty years, Cruise’s publicity was managed by Pat Kingsley, who exercised exacting control over the star’s image. With the help of seemingly diverse yet essentially similar starring roles, Cruise solidified his image as the co*cky, charismatic boy-next-door.The unified Cruise image was made possible by shutting down competing discourses through the relentless, comprehensive efforts of his management company; Kingsley's staff fine-tuned Cruise’s acts of disclosure while simultaneously eliminating the potential for unplanned intrusions, neutralising any potential scandal at its source. Kingsley and her aides performed for Cruise all the functions of a studio publicity department from Hollywood’s Golden Age. Most importantly, Cruise was kept silent on the topic of his controversial religion, Scientology, lest it incite domestic and international backlash. In interviews and off-the-cuff soundbites, Cruise was ostensibly disclosing his true self, and that self remained the dominant reading of what, and who, Cruise “was.” Yet in 2004, Cruise fired Kingsley, replaced her with his own sister (and fellow Scientologist), who had no prior experience in public relations. In essence, he exchanged a handler who understood how to shape star disclosure for one who did not. The events that followed have been widely rehearsed: Cruise avidly pursued Katie Holmes; Cruise jumped for joy on Oprah’s couch; Cruise denounced psychology during a heated debate with Matt Lauer on The Today Show. His attempt at disclosing this new, un-publicist-mediated self became scandalous in and of itself. Cruise’s dismissal of Kingsley, his unpopular (but not necessarily unwelcome) disclosures, and his own massively unchecked ego all played crucial roles in the fall of the Cruise image. While these stumbles might have caused some minor career turmoil in the past, the hyper-echoic, spastically recombinatory logic of the technoculture brought the speed and stakes of these missteps to a new level; one of the hallmarks of the postmodern condition has been not merely an increasing textual self-reflexivity, but a qualitative new leap forward in inter-textual reflexivity, as well (Lyotard; Baudrillard). Indeed, the swift dismantling of Cruise’s long-established image is directly linked to the immediacy and speed of the Internet, digital photography, and the gossip blog, as the reflexivity of new media rendered the safe division between disclosure and intrusion untenable. His couchjumping was turned into a dance remix and circulated on YouTube; Mission Impossible 3 boycotts were organised through a number of different Web forums; gossip bloggers speculated that Cruise had impregnated Holmes using the frozen sperm of Scientology founder L. Ron Hubbard. In the past, Cruise simply filed defamation suits against print publications that would deign to sully his image. Yet the sheer number of sites and voices reproducing this new set of rumors made such a strategy untenable. Ultimately, intrusions into Cruise’s personal life, including the leak of videos intended solely for Scientology recruitment use, had far more traction than any sanctioned Cruise soundbite. Cruise’s image emerged as a hollowed husk of its former self; the sheer amount of material circulating rendered all attempts at P.R., including a Vanity Fair cover story and “reveal” of daughter Suri, ridiculous. His image was fragmented and re-collected into an altered, almost uncanny new iteration. Following the lackluster performance of Mission Impossible 3 and public condemnation by Paramount head Sumner Redstone, Cruise seemed almost pitiable. The New Logic of Celebrity Image ManagementCruise’s travails are expressive of a deeper development which has occurred over the course of the last decade, as the massively proliferating new forms of celebrity discourse (e.g., paparazzi photos, mug shots, cell phone video have further decentered any shiny, polished version of a star. With older forms of media increasingly reorganising themselves according to the aesthetics and logic of new media forms (e.g., CNN featuring regular segments in which it focuses its network cameras upon a computer screen displaying the CNN website), we are only more prone to appreciate “low media” forms of star discourse—reports from fans on discussion boards, photos taken on cell phones—as valid components of the celebrity image. People and E.T. still attract millions, but they are rapidly ceding control of the celebrity industry to their ugly, offensive stepbrothers: TMZ, Us Weekly, and dozens of gossip blogs. Importantly, a publicist may be able to induce a blogger to cover their client, but they cannot convince him to drop a story: if TMZ doesn’t post it, then Perez Hilton certainly will. With TMZ unabashedly offering pay-outs to informants—including those in law enforcement and health care, despite recently passed legislation—a star is never safe. If he or she misbehaves, someone, professional or amateur, will provide coverage. Scandal becomes normalised, and, in so doing, can no longer really function as scandal as such; in an age of around-the-clock news cycles and celebrity-fixated journalism, the only truly scandalising event would be the complete absence of any scandalous reports. Or, as aesthetic theorist Jacques Ranciere puts it; “The complaint is then no longer that images conceal secrets which are no longer such to anyone, but, on the contrary, that they no longer hide anything” (22).These seemingly paradoxical involutions of post-modern celebrity epistemologies are at the core of the current crisis of celebrity, and, subsequently, of celebrities’s attempts to “take back their own paparazzi.” As one might expect, contemporary celebrities have attempted to counter these new logics and strategies of intrusion through a heightened commitment to disclosure, principally through the social networking capabilities of Twitter. Yet, as we will see, not only have the epistemological reorderings of postmodernist technoculture affected the logic of scandal/intrusion, but so too have they radically altered the workings of intrusion’s dialectical counterpart, disclosure.In the 1930s, when written letters were still the primary medium for intimate communication, stars would send lengthy “hand-written” letters to members of their fan club. Of course, such letters were generally not written by the stars themselves, but handwriting—and a star’s signature—signified authenticity. This ritualised process conferred an “aura” of authenticity upon the object of exchange precisely because of its static, recurring nature—exchange of fan mail was conventionally understood to be the primary medium for personal encounters with a celebrity. Within the overall political economy of the studio system, the medium of the hand-written letter functioned to unleash the productive power of authenticity, offering an illusion of communion which, in fact, served to underscore the gulf between the celebrity’s extraordinary nature and the ordinary lives of those who wrote to them. Yet the criterion and conventions through which celebrity personae were maintained were subject to change over time, as new communications technologies, new modes of Hollywood's industrial organization, and the changing realities of commercial media structures all combined to create a constantly moving ground upon which the celebrity tried to affix. The celebrity’s changing conditions are not unique to them alone; rather, they are a highly visible bellwether of changes which are more fundamentally occurring at all levels of culture and subjectivity. Indeed, more than seventy years ago, Walter Benjamin observed that when hand-made expressions of individuality were superseded by mechanical methods of production, aesthetic criteria (among other things) also underwent change, rendering notions of authenticity increasingly indeterminate.Such is the case that in today’s world, hand-written letters seem more contrived or disingenuous than Danny DeVito’s inaugural post to his Twitter account: “I just joined Twitter! I don't really get this site or how it works. My nuts are on fire.” The performative gesture in DeVito’s tweet is eminently clear, just as the semantic value is patently false: clearly DeVito understands “this site,” as he has successfully used it to extend his irreverent funny-little-man persona to the new medium. While the truth claims of his Tweet may be false, its functional purpose—both effacing and reifying the extraordinary/ordinary distinction of celebrity and maintaining DeVito’s celebrity personality as one with which people might identify—is nevertheless seemingly intact, and thus mirrors the instrumental value of celebrity disclosure as performed in older media forms. Twitter and Contemporary TechnocultureFor these reasons and more, considered within the larger context of contemporary popular culture, celebrity tweeting has been equated with the assertion of the authentic celebrity voice; celebrity tweets are regularly cited in newspaper articles and blogs as “official” statements from the celebrity him/herself. With so many mediated voices attempting to “speak” the meaning of the star, the Twitter account emerges as the privileged channel to the star him/herself. Yet the seemingly easy discursive associations of Twitter and authenticity are in fact ideological acts par excellence, as fixations on the indexical truth-value of Twitter are not merely missing the point, but actively distracting from the real issues surrounding the unsteady discursive construction of contemporary celebrity and the “celebretification” of contemporary subjectivity writ large. In other words, while it is taken as axiomatic that the “message” of celebrity Twittering is, as Henry Jenkins suggests, “Here I Am,” this outward epistemological certainty veils the deeply unstable nature of celebrity—and by extension, subjectivity itself—in our networked society.If we understand the relationship between publicity and technoculture to work as Zizek-inspired cultural theorist Jodi Dean suggests, then technologies “believe for us, accessing information even if we cannot” (40), such that technology itself is enlisted to serve the function of ideology, the process by which a culture naturalises itself and attempts to render the notion of totality coherent. For Dean, the psycho-ideological reality of contemporary culture is predicated upon the notion of an ever-elusive “secret,” which promises to reveal us all as part of a unitary public. The reality—that there is no such cohesive collective body—is obscured in the secret’s mystifying function which renders as “a contingent gap what is really the fact of the fundamental split, antagonism, and rupture of politics” (40). Under the ascendancy of the technoculture—Dean's term for the technologically mediated landscape of contemporary communicative capitalism—subjectivity becomes interpellated along an axis blind to the secret of this fundamental rupture. The two interwoven poles of this axis are not unlike structuralist film critics' dialectically intertwined accounts of the scopophilia and scopophobia of viewing relations, simply enlarged from the limited realm of the gaze to encompass the entire range of subjectivity. As such, the conspiratorial mindset is that mode of desire, of lack, which attempts to attain the “secret,” while the celebrity subject is that element of excess without which desire is unthinkable. As one might expect, the paparazzi and gossip sites’s strategies of intrusion have historically operated primarily through the conspiratorial mindset, with endless conjecture about what is “really happening” behind the scenes. Under the intrusive/conspiratorial paradigm, the authentic celebrity subject is always just out of reach—a chance sighting only serves to reinscribe the need for the next encounter where, it is believed, all will become known. Under such conditions, the conspiratorial mindset of the paparazzi is put into overdrive: because the star can never be “fully” known, there can never be enough information about a star, therefore, more information is always needed. Against this relentless intrusion, the celebrity—whose discursive stability, given the constant imperative for newness in commercial culture, is always in danger—risks a semiotic liquidation that will totally displace his celebrity status as such. Disclosure, e.g. Tweeting, emerges as a possible corrective to the endlessly associative logic of the paparazzi’s conspiratorial indset. In other words, through Twitter, the celebrity seeks to arrest meaning—fixing it in place around their own seemingly coherent narrativisation. The publicist’s new task, then, is to convincingly counter such unsanctioned, intrusive, surveillance-based discourse. Stars continue to give interviews, of course, and many regularly pose as “authors” of their own homepages and blogs. Yet as posited above, Twitter has emerged as the most salient means of generating “authentic” celebrity disclosure, simultaneously countering the efforts of the papparazzi, fan mags, and gossip blogs to complicate or rewrite the meaning of the star. The star uses the account—verified, by Twitter, as the “real” star—both as a means to disclose their true interior state of being and to counter erastz narratives circulating about them. Twitter’s appeal for both celebrities and their followers comes from the ostensible spontaneity of the tweets, as the seemingly unrehearsed quality of the communiqués lends the form an immediacy and casualness unmatched by blogs or official websites; the semantic informality typically employed in the medium obscures their larger professional significance for celebrity tweeters. While Twitter’s air of extemporary intimacy is also offered by other social networking platforms, such as MySpace or Facebook, the latter’s opportunities for public feedback (via wall-posts and the like) works counter to the tight image control offered by Twitter’s broadcast-esque model. Additionally, because of the uncertain nature of the tweet release cycle—has Ashton Kutcher sent a new tweet yet?—the voyeuristic nature of the tweet disclosure (with its real-time nature offering a level of synchronic intimacy that letters never could have matched), and the semantically displaced nature of the medium, it is a form of disclosure perfectly attuned to the conspiratorial mindset of the technoculture. As mentioned above, however, the conspiratorial mindset is an unstable subjectivity, insofar as it only exists through a constant oscillation with its twin, the celebrity subjectivity. While we can understand that, for the celebrities, Twitter functions by allowing them a mode for disclosive/celebrity subjectivisation, we have not yet seen how the celebrity itself is rendered conspiratorial through Twitter. Similarly, only the conspiratorial mode of the follower’s subjectivity has thus far been enumerated; the moment of the follower's celebrtification has so far gone unmentioned. Since we have seen that the celebrity function of Twitter is not really about discourse per se, we should instead understand that the ideological value of Twitter comes from the act of tweeting itself, of finding pleasure in being engaged in a techno-social system in which one's participation is recognised. Recognition and participation should be qualified, though, as it is not the fully active type of participation one might expect in say, the electoral politics of a representative democracy. Instead, it is a participation in a sort of epistemological viewing relations, or, as Jodi Dean describes it, “that we understand ourselves as known is what makes us think there is that there is a public that knows us” (122). The fans’ recognition by the celebrity—the way in which they understood themselves as known by the star was once the receipt of a hand-signed letter (and a latent expectation that the celebrity had read the fan’s initial letter); such an exchange conferred to the fan a momentary sense of participation in the celebrity's extraordinary aura. Under Twitter, however, such an exchange does not occur, as that feeling of one-to-one interaction is absent; simply by looking elsewhere on the screen, one can confirm that a celebrity's tweet was received by two million other individuals. The closest a fan can come to that older modality of recognition is by sending a message to the celebrity that the celebrity then “re-tweets” to his broader following. Beyond the obvious levels of technological estrangement involved in such recognition is the fact that the identity of the re-tweeted fan will not be known by the celebrity’s other two million followers. That sense of sharing in the celebrity’s extraordinary aura is altered by an awareness that the very act of recognition largely entails performing one’s relative anonymity in front of the other wholly anonymous followers. As the associative, conspiratorial mindset of the star endlessly searches for fodder through which to maintain its image, fans allow what was previously a personal moment of recognition to be transformed into a public one. That is, the conditions through which one realises one’s personal subjectivity are, in fact, themselves becoming remade according to the logic of celebrity, in which priority is given to the simple fact of visibility over that of the actual object made visible. Against such an opaque cultural transformation, the recent rise of reactionary libertarianism and anti-collectivist sentiment is hardly surprising. ReferencesBaudrillard, Jean. Simulacra and Simulation. Ann Arbor: Michigan UP, 1994.Benjamin, Walter. Illuminations. New York: Harcourt, Brace and World, 1968. Dean, Jodi. Publicity’s Secret: How Technoculture Capitalizes on Democracy. Ithaca: Cornell UP, 2003. DeCordova, Richard. Picture Personalities: The Emergence of the Star System in America. Urbana: University of Illinois Press, 1990. Jenkins, Henry. “The Message of Twitter: ‘Here It Is’ and ‘Here I Am.’” Confessions of an Aca-Fan. 23 Aug. 2009. 15 Sep. 2009 < http://henryjenkins.org/2009/08/the_message_of_twitter.html >.Lyotard, Jean-Francois. The Postmodern Condition: A Report on Knowledge. Minneapolis: Minnesota UP, 1984.Ranciere, Jacques. The Future of the Image. New York: Verso, 2007.