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http://depts.washington.edu/uwnorc/core-facilities/adipose-tissue-and-obesity-core/
Core that provides affiliated investigators with assistance for in vivo and in vitro studies in both subcutaneous and visceral human adipose tissue. Body and liver fat measurement by DXA and MRI are also provided, as is support for translational studies that assist investigators in the design conduct of clinical obesity research.
Proper citation: University of Washington Nutrition and Obesity Research Center Adipose Tissue and Obesity Core (RRID:SCR_015481) Copy
http://depts.washington.edu/cfrtc/genomics/
Core provides genomics-based tools, data management and analysis tools, and creates platforms that integrate data from the Clinical and Immunology Cores for human samples and bacterial isolates. Services include consultation and experimental design assistance for using new-generation sequencing technology, data analysis, bioinformatic support, data access and storage, high throughput and new-generation whole-genome sequencing, and RNA-seq analysis of transcriptomes.
Proper citation: University of Washington Genomics Core Cystic Fibrosis Research Translation Center and Research Development Program (RRID:SCR_015404) Copy
http://www.med.upenn.edu/gtp/immunology.shtml
Core facility which provides a variety of assay services to evaluate cell-mediated and humoral responses to in animal models of gene therapies.
Proper citation: University of Pennsylvania Center for Molecular Therapy for Cystic Fibrosis Immunology Core (RRID:SCR_015409) Copy
https://medicine.uiowa.edu/genetherapy/research-cores/cells-and-tissue-core
Core that provides centralized access to non-cystic fibrosis and cystic fibrosis tissue specimens and airway cells used for model systems to assess gene transfer to the airway and pathophysiology in cystic fibrosis.
Proper citation: University of Iowa Center for Gene Therapy Cell Tissue Core (RRID:SCR_015410) Copy
https://nyonrc.cumc.columbia.edu/content/animal-phenotyping-core
Core that allows investigators to efficiently and cost effectively define the phenotypes of small rodents in ways that are relevant to the study of obesity, nutrition, and metabolism. Its services range from whole animal measurements of body composition and energy utilization, to ex vivo measurements of substrate fluxes, to histological analyses of adipose tissue.
Proper citation: New York Obesity Nutrition Research Center Animal Phenotyping Core (RRID:SCR_015414) 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.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
https://hddc.hms.harvard.edu/core-b
Core facility that provides service for paraffin embedding, sectioning, staining, and frozen sectioning; shared equipment and service for confocal, widefield, photodocumentation, electron microscopy, and digital image processing; and an immunostaining service.
Proper citation: Harvard Digestive Diseases Center Biomedical CORE B: Microscopy and Histopathology (RRID:SCR_009836) 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://www.utsouthwestern.edu/labs/acute-liver/
Clinical research network for gathering prospective data and bio-samples on acute liver failure in adults since 1998. Clinical histories and laboratory and outcome data are available. Sample types include serum, plasma, urine, DNA, and liver tissue.
Proper citation: Acute Liver Failure Study Group (RRID:SCR_001463) 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
http://www.cristudy.org/Chronic-Kidney-Disease/Chronic-Renal-Insufficiency-Cohort-Study/
A prospective observational national cohort study poised to make fundamental insights into the epidemiology, management, and outcomes of chronic kidney disease (CKD) in adults with intended long-term follow up. The major goals of the CRIC Study are to answer two important questions: * Why does kidney disease get worse in some people, but not in others? * Why do persons with kidney disease commonly experience heart disease and stroke? The CRIC Scientific and Data Coordinating Center at Penn receives data and provides ongoing support for a number of Ancillary Studies approved by the CRIC Cohort utilizing both data collected about CRIC study participants as well as their biological samples. The CRIC Study has enrolled over 3900 men and women with CKD from 13 recruitment sites throughout the country. Following this group of individuals over the past 10 years has contributed to the knowledge of kidney disease, its treatment, and preventing its complications. The NIDDKwill be extending the study for an additional 5 years, through 2018. An extensive set of study data is collected from CRIC Study participants. With varying frequency, data are collected in the domains of medical history, physical measures, psychometrics and behaviors, biomarkers, genomics/metabolomics, as well as renal, cardiovascular and other outcomes. Measurements include creatinine clearance and iothalamate measured glomerular filtration rate. Cardiovascular measures include blood pressure, ECG, ABI, ECHO, and EBCT. Clinical CV outcomes include MI, ischemic heart disease-related death, acute coronary syndromes, congestive heart failure, cerebrovascular disease, peripheral vascular disease, and composite outcomes. The CRIC Study has delivered in excess of 150,000 bio-samples and a dataset characterizing all 3939 CRIC participants at the time of study entry to the NIDDKnational repository. The CRIC Study will also be delivering a dataset to NCBI''''s Database for Genotypes and Phenotypes.
Proper citation: Chronic Renal Insufficiency Cohort Study (RRID:SCR_009016) Copy
http://vmmpc.org/body-weight-regulation-core/
Core facility for MMPC Vanderbilt University School of Medicine for studying impact of genetic, surgical, dietary and pharmacologic manipulations on body weight regulation. Core provides measurement of food intake, energy expenditure, and behavioral factors. Energy balance studies are performed in mouse home cage to minimize stress. Mitochondrial function is assessed on permeabilized tissues, isolated cells, or isolated mitochondria. Mouse models of bariatric surgery have been developed and studied extensively.
Proper citation: MMPC Vanderbilt University School of Medicine Body Weight Regulation Core (RRID:SCR_015905) Copy
https://pypi.org/project/pmlb/
Python wrapper for Penn Machine Learning Benchmark data repository. Large, curated repository of benchmark datasets for evaluating supervised machine learning algorithms. Part of PyPI https://pypi.org/
Proper citation: Penn machine learning benchmark repository (RRID:SCR_017138) Copy
https://sdrc.stanford.edu/sdrc-research-cores/dctc/home/
With the following services from the Diabetes Clinical and Translational Core (DCTC), members will receive training in biospecimen preservation, study design, data analysis, data management, use of statistical software and clinical trial conduct.
Proper citation: Stanford Diabetes Research Center Diabetes Clinical and Translational Core (RRID:SCR_016212) Copy
https://sdrc.stanford.edu/sdrc-research-cores/dimc/home/
Core facility that provides immune monitoring assays at the RNA, protein, and cellular level, as well as archiving, reporting, and data mining support for clinical and translational studies related to Diabetes. The DIMC is a specialized subcore of the Human Immune Monitoring Center (HIMC) at Stanford.
Proper citation: Stanford Diabetes Research Center Diabetes Immune Monitoring Core (RRID:SCR_016210) Copy
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