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This colony provides a national resource of rhesus monkeys and their tissues to carry out research benefiting the scientific community. The RMBRR maintains a colony of monkeys that have been derived to be specific pathogen free for members of both the herpes and retrovirus families. Over its history, the RMBRR has developed specialized management techniques, housing facilities and highly trained staff to avail these purposefully bred laboratory models, which are 93% genetically identical to humans, to researchers worldwide. Historically, this animal model has been instrumental in research involving blood classification, polio vaccine development, and drug safety and efficacy while currently they are the preferred model for studying the mechanisms of immunodeficiency diseases. Their susceptibility to Simian Immunodeficiency Virus and their homology to the human major histocompatibility complex (MHC) Class I, II and TCR genes make them valuable in HIV research. They are currently the models of choice for HIV/AIDS vaccine development and study. Other areas of research include atherosclerosis, myocarditis, alcoholism, diabetes, cancer and aging. The overall objectives of this resource are to improve the resources available at the RMBRR and to conduct resource-relevant research that improves both the health of the rhesus colony and its usefulness for studies of human disease. The Resource and Management Core is responsible for providing animal resources, tissues/biological fluids, cell lines, expert advice and research support to NIH extramural and intramural programs, other federal agencies and to private sponsors. The Resource-Related Research Core conducts research to improve the health of the animals maintained with special emphasis on studies that will enhance the usefulness of the rhesus as a model for studies of human disease.
Proper citation: Rhesus Monkey Breeding and Research (RRID:SCR_008357) Copy
Interactive digital platform helping scientists who study type 1 diabetes connect, collaborate, and gain funding for their best ideas. All volunteer team has received much positive support from the global population of scientists studying type 1 diabetes, as well as from Beyond Type 1, JDRF, and IPITA. Provides curated conversations, events and technology to scientific T1D focused audience. Non profit entity funded by donations and sponsorships with industry and academic partners to provide unique collaborative benefits and programs to researchers in the T1D academic research community.
Proper citation: thesugarscience (RRID:SCR_020250) Copy
Portal enables browsing, searching, and analysis of human genetic information linked to common metabolic diseases and traits, while protecting integrity and confidentiality of underlying data. Aggregates and analyzes genetic association results, epigenomic annotations, and results of computational prediction methods to provide data, visualizations, and tools in open access portal.
Proper citation: Common Metabolic Diseases Knowledge Portal (RRID:SCR_020937) Copy
Large scale electron microscopy datasets. Large scale electron microscopy database for Human Type 1 Diabetes.
Proper citation: Nanotomy (RRID:SCR_018565) Copy
https://www.signalingpathways.org/ominer/query.jsf
THIS RESOURCE IS NO LONGER IN SERVICE.Documented on February 25, 2022.Software tool as knowledge environment resource that accrues, develops, and communicates information that advances understanding of structure, function, and role in disease of nuclear receptors (NRs) and coregulators. It specifically seeks to elucidate roles played by NRs and coregulators in metabolism and development of metabolic disorders. Includes large validated data sets, access to reagents, new findings, library of annotated prior publications in field, and journal covering reviews and techniques.As of March 20, 2020, NURSA is succeeded by the Signaling Pathways Project (SPP).
Proper citation: Nuclear Receptor Signaling Atlas (RRID:SCR_003287) Copy
Medical technology company that develops and manufactures devices and therapies to treat more than 30 chronic diseases, including heart failure, Parkinson's disease, urinary incontinence, Down syndrome, obesity, chronic pain, spinal disorders, and diabetes. A Commercial healthcare organization for both patients and healthcare professionals. For professionals, it provides products, therapy and procedure solutions, and services.
Proper citation: Medtronic (RRID:SCR_003988) Copy
http://www.t1diabetes.nih.gov/T1D-PTP/
THIS RESOURCE IS NO LONGER IN SERVICE, documented August 22, 2016. Investigator access is provided to the established facilities and expertise needed to extend, enhance and validate preclinical studies of promising new therapeutics in cases where additional preclinical testing is needed to validate potential therapies under disease-specific conditions and in multiple animal models before therapeutics can enter the Type 1 Diabetes Rapid Access to Intervention Development (T1D-RAID) development pipeline. The T1D-RAID program provides resources for pre-clinical development of drugs, natural products, and biologics that will be tested as new therapeutics in type 1 diabetes clinical trials. The T1D-RAID program is not currently accepting applications. The T1D-PTP program currently supports two contracts, which are separate from each other and from the T1D-RAID NCI contract resources, to assist in preclinical development of therapeutics for T1D: * Agents to be tested for Preclinical Efficacy in Prevention or Reversal of Type 1 Diabetes in Rodent Models. Type 1 Diabetes Preclinical Testing Program (T1D-PTP) (NOT-DK-09-006) * Needs for Preclinical Efficacy Testing of Promising Agents to Prevent or Reverse Diabetic Complications (NOT-DK-09-009) The T1D-RAID and T1D-PTP are programs intended to remove the most common barriers to progress in identification and development of new therapies for Type 1 Diabetes. The common goal of these programs is to support and provide for the preclinical work necessary to obtain proof of principle establishing that a new molecule or novel approach will be a viable candidate for expanded clinical evaluation.
Proper citation: Type 1 Diabetes Preclinical Testing Program (RRID:SCR_006861) Copy
http://diabetes.niddk.nih.gov/dm/pubs/control/index.aspx
Clinical study that showed that keeping blood glucose levels as close to normal as possible slows the onset and progression of eye, kidney, and nerve diseases caused by diabetes. EDIC is a follow-up study of people who participated in DCCT. The DCCT involved 1,441 volunteers, ages 13 to 39, with type 1 diabetes and 29 medical centers in the United States and Canada. Volunteers had to have had diabetes for at least 1 year but no longer than 15 years. They also were required to have no, or only early signs of, diabetic eye disease. The study compared the effects of standard control of blood glucose versus intensive control on the complications of diabetes. Intensive control meant keeping hemoglobin A1C levels as close as possible to the normal value of 6 percent or less. The A1C blood test reflects a person''''s average blood glucose over the last 2 to 3 months. Volunteers were randomly assigned to each treatment group. DCCT Study Findings * Intensive blood glucose control reduces risk of ** eye disease: 76% reduced risk ** kidney disease: 50% reduced risk ** nerve disease: 60% reduced risk When the DCCT ended, researchers continued to study more than 90 percent of participants. The follow-up study, called Epidemiology of Diabetes Interventions and Complications (EDIC), is assessing the incidence and predictors of cardiovascular disease events such as heart attack, stroke, or needed heart surgery, as well as diabetic complications related to the eye, kidney, and nerves. The EDIC study is also examining the impact of intensive control versus standard control on quality of life. Another objective is to look at the cost-effectiveness of intensive control. EDIC Study Findings * Intensive blood glucose control reduces risk of ** any cardiovascular disease event: 42% reduced risk ** nonfatal heart attack, stroke, or death from cardiovascular causes: 57% reduced risk
Proper citation: Diabetes Control and Complications Trial (RRID:SCR_006805) Copy
https://www.accordtrial.org/public
Study testing whether strict glucose control lowers the risk of heart disease and stroke in adults with type 2 diabetes. In addition the study is exploring: 1) Whether in the context of good glycemic control the use of different lowering lipid drugs will further improve these outcomes and 2) If strict control of blood pressure will also have additional beneficial effects on reducing cardiovascular disease. The design was a randomized, multicenter, double 2 X 2 factorial trial in 10,251 patients with type 2 diabetes mellitus. It was designed to test the effects on major CVD events of intensive glycemia control, of fibrate treatment to increase HDL-cholesterol and lower triglycerides (in the context of good LDL-C and glycemia control), and of intensive blood pressure control (in the context of good glycemia control), each compared to an appropriate control. All 10,251 participants were in an overarching glycemia trial. In addition, one 2 X 2 trial addressed the lipid question in 5,518 of the participants and the other 2 X 2 trial addressed the blood pressure question in 4,733 of the participants. The glycemia trial was terminated early due to higher mortality in the intensive compared with the standard glycemia treatment strategies. The results were published in June 2008 (N Eng J Med 2008;358:2545-59). Study-delivered treatment for all ACCORD participants was stopped on June 30, 2009, and the participants were assisted as needed in transferring their care to a personal physician. The lipid and blood pressure results (as well as the microvascular outcomes and eye substudy results) were published in 2010. All participants are continuing to be followed in a non-treatment observational study.
Proper citation: ACCORD (RRID:SCR_009015) Copy
https://www.baderc.org/cores/metaboliccore/
Core in BADERC that provides services in consultation and teaching, use of DEXA scanner for determination of body fat and/or bone density, and use of Coulter Counter to measure cell number and cell size distribution.
Proper citation: Boston Area Diabetes Endocrinology Research Center Metabolic Physiology and Energy Balance Core Facility (RRID:SCR_008293) Copy
http://harvard.eagle-i.net/i/0000012e-6d67-5282-55da-381e80000000
Core facility that provides the following services: Autoantibody determination, HLA typing and Genotyping for the best recognized susceptibility loci (INS, PTPN22, CTLA4).
The Human Sample Procurement Core will support translational research endeavors within the JDRF Center by providing the Center''s laboratories access to well-characterized blood samples from patients with diabetes at different stages of the disease. This availability will greatly facilitate the translational exploration of concepts and targets emerging from the basic research projects. Individuals with T1D (recent onset, long-standing Type-1 diabetes) and matched controls (healthy or T2D) will be recruited from the patient population at the Joslin Diabetes Center and neighboring institutions. The Core will perform and record a basic characterization of patients and their samples. This analysis will include a thorough evaluation of clinical characteristics from a diabetes and autoimmune standpoint, and an immunogenetic workup (outsourced to Joslin or other cores): autoantibody determination, HLA typing and genotyping for the best recognized susceptibility loci (INS, PTPN22, CTLA4). A relational database will be adapted to record all patient information, copies of which will be provided in a de-identified manner to the investigators.
Proper citation: HMS Human Sample Procurement Core Facility (RRID:SCR_009797) Copy
http://harvard.eagle-i.net/i/0000012a-25bf-69ed-f5ed-943080000000
Core facility that provides the following services: Maintainence and dissemination of transgenic and mutant mice.
The Genetically Modified NOD Mouse Core provides Center investigators, as well as researchers elsewhere, with access to transgenic and mutant lines derived from the NOD mouse model: some will be generated within the Core; others are established lines of proven experimental value that are maintained in the Core. The Core will construct transgenic mice in strains that have a high susceptibility to diabetes (in particular in the NOD line). This includes trangenesis by conventional pronuclear injection or by delivery of RNAi cassettes on lentiviral vectors. The Core will also provide a panel of existing transgenic and mutant lines. These lines are chosen because of their established interest in allowing the dissection of immunological tolerance in Type 1 Diabetes, and in response to Center investigator needs.
Proper citation: HMS Genetically Modified NOD Mouse Core Facility (RRID:SCR_009796) Copy
https://joslinresearch.org/drc-cores/Flow-Cytometry-Core
THIS RESOURCE IS NO LONGER IN SERVICE. Documented on October 27,2023. Core that provides cell sorting and flow cytometry services. Specific services include cell analysis, large object sorting,magnetic cell enrichment, and automatic cell counting.
Proper citation: Joslin Diabetes Center Flow Cytometry Core Facility (RRID:SCR_009878) Copy
https://joslinresearch.org/drc-cores/Animal-Physiology-Core
THIS RESOURCE IS NO LONGER IN SERVICE. Documented on October 27,2023. Core that provides technically advanced physiological evaluation of metabolism in diabetes, obesity, and their associated complications in rodents for DRC investigators and outside users. It also provides training of investigators and trainees in several physiological procedures.
Proper citation: Joslin Diabetes Center Animal Physiology Core Facility (RRID:SCR_009876) Copy
https://joslinresearch.org/drc-cores/Advanced-Microscopy-Core
THIS RESOURCE IS NO LONGER IN SERVICE. Documented on October 27,2023. Core that provides services for performing specific morphological procedures, providing training and access to equipment, maintaining the specialized microscopes, and giving advice and interpretation.
Proper citation: Joslin Diabetes Center Advanced Microscopy Core Facility (RRID:SCR_009875) Copy
https://joslinresearch.org/drc-cores/Advanced-Genomics-and-Genetics-Core
THIS RESOURCE IS NO LONGER IN SERVICE. Documented on October 27,2023. Core that provides services for genetic and genomic analysis, including DNA extraction from blood, access to DNA collections from the Core?s repository, SNP genotyping, and support for gene expression studies based on both high-density oligonucleotide arrays and real-time quantitative PCR.
Proper citation: Joslin Diabetes Center Advanced Genomics and Genetics Core Facility (RRID:SCR_009873) Copy
http://jsu.eagle-i.net/i/0000012c-1c64-7caa-a830-7bcf80000000
The JHS is the largest single-site longitudinal, population-based, cohort study of 5,302 persons initiated in the fall of 2000 to prospectively investigate the determinants of CVD among African Americans in the Jackson, MS metropolitan statistical area. The JHS investigates the various genotype and phenotype factors that affect high blood pressure, heart disease, strokes, diabetes and other important diseases in African Americans. The primary objective of the Jackson Heart Study is to investigate the causes of cardiovascular disease (CVD) in African Americans to learn how to best prevent this group of diseases in the future. More specific objectives include: 1. Identification of factors, which influence the development, and worsening of CVD in African Americans, with an emphasis on manifestations related to high blood pressure (such as remodeling of the left ventricle of the heart, coronary artery disease, heart failure, stroke and disorders affecting the blood vessels of the kidney). 2. Building research capabilities in minority institutions at the undergraduate and graduate level by developing partnerships between minority and majority institutions and enhancing participation of minority investigators in large-scale epidemiologic studies. 3. Attracting minority students to and preparing them for careers in health sciences.
Proper citation: Jackson Heart Study (RRID:SCR_009902) Copy
http://www.med.upenn.edu/idom/drc/cores/ria.html
Core which offers high quality immunoassay services to basic, translational, and clinical investigators performing diabetes and related metabolic disease research. The core also provides consultation and training and education services.
Proper citation: Penn Diabetes Research Center Radioimmunoassay and Biomarkers Core Facility (RRID:SCR_010028) Copy
https://labnodes.vanderbilt.edu/community/profile/id/2229
THIS RESOURCE IS NO LONGER IN SERVICE. Documented on October 30,2023. Core facility that provides any Vanderbilt researcher with access to imaging equipment and expert technical support for microscopy and analysis of tissue and cellular physiology.
Proper citation: Vanderbilt Diabetes Research and Training Center Cell Imaging Shared Resource Core Facility (RRID:SCR_010165) Copy
https://www.atypicaldiabetesnetwork.org/
Portal dedicated to characterizing, discovering and defining rare and atypical forms of diabetes. Network of universities, hospitals and clinics across the United States dedicated to better understanding atypical diabetes. Team of academic institutions and scientists collaborates with physicians and healthcare groups to identify those with atypical diabetes and learn more about their health.
Proper citation: Rare and Atypical Diabetes Network (RRID:SCR_024732) Copy
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