The goal of the South Carolina Clinical and Translational Research Institute (SCTR) is to create a sustainable home at the Medical University of South Carolina (MUSC) to advance clinical and translational research as a distinct discipline and facilitate collaboration across multiple disciplines. The overall approach focuses on: (1) implementing important advances in biomedical science to create opportunities for discovery, (2) removing barriers to facilitate the linkage of knowledge, experience and expertise across disciplinary boundaries, (3) providing training and mentoring experiences to enhance the pipeline for clinical and translational researchers with diverse training and backgrounds, and (4) fostering community engagement with a rapidly growing statewide population that is underserved by many systems to improve their participation and health outcomes. MUSC has long-standing experience leading successful clinical and translational research efforts that span the state. It is the leading state institution in extramurally funded research activities and has a rich research training portfolio. SCTR was established in 2007 with the vision that it would be the """"""""agent of change"""""""" in transforming the research culture at MUSC and statewide via strong relationships with academic and community-based affiliates. Great progress has already been made including the development of an institutional K12 Career Development Program in Clinical and Translational Research, implementation of a pilot project program that funded 29 projects in the first two competitive rounds, and establishment of a robust collaboration with the NIH-funded CTSA at Vanderbilt University for assistance in the SCTR Biomedical Informatics Program. Joining the national CTSA Consortium will accelerate progress by further facilitating (1) development and interoperability of biomedical informatics systems, (2) active exchange of best processes and best practices in evidence-based medicine and community engagement, (3) advancement of clinical and translational science as a discipline and career path;and (4) shared knowledge, experience and collective influence in setting regional and national research agendas and health policy designed to generate the transformative results envisioned by the NIH Roadmap.
SCTR will bring together scientists, clinicians and the lay community to address diseases that commonly impact the citizens of South Carolina. SCTR will coordinate resources and expertise statewide in efficient, innovative approaches to research. Through SCTR, a new generation of researchers will be trained to work across multiple disciplines in collaboration with community members so that scientific discovery is relevant and ranirilv translatfid tn frnnt-linp trPiatmRnt sfittinn.9 for maximum imnar^t nn hfialth niitrnmfis.
|DiPiro, N D; Embry, A E; Fritz, S L et al. (2016) Effects of aerobic exercise training on fitness and walking-related outcomes in ambulatory individuals with chronic incomplete spinal cord injury. Spinal Cord 54:675-81|
|Danielson, Carla Kmett; McCauley, Jenna L; Gros, Kirstin Stauffacher et al. (2016) SiHLEWeb.com: Development and usability testing of an evidence-based HIV prevention website for female African-American adolescents. Health Informatics J 22:194-208|
|Scofield, M D; Heinsbroek, J A; Gipson, C D et al. (2016) The Nucleus Accumbens: Mechanisms of Addiction across Drug Classes Reflect the Importance of Glutamate Homeostasis. Pharmacol Rev 68:816-71|
|May, Nelson H; Pisegna, Jessica M; Marchina, Sarah et al. (2016) Pharyngeal Swallowing Mechanics Secondary to Hemispheric Stroke. J Stroke Cerebrovasc Dis :|
|Herr, Daniel J; Aune, Sverre E; Menick, Donald R (2015) Induction and Assessment of Ischemia-reperfusion Injury in Langendorff-perfused Rat Hearts. J Vis Exp :e52908|
|Glenn, G Russell; Tabesh, Ali; Jensen, Jens H (2015) A simple noise correction scheme for diffusional kurtosis imaging. Magn Reson Imaging 33:124-33|
|Leonard, Anthony P; Cameron, Robert B; Speiser, Jaime L et al. (2015) Quantitative analysis of mitochondrial morphology and membrane potential in living cells using high-content imaging, machine learning, and morphological binning. Biochim Biophys Acta 1853:348-60|
|Midgett, Kristin; Peden-Adams, Margie M; Gilkeson, Gary S et al. (2015) In vitro evaluation of the effects of perfluorooctanesulfonic acid (PFOS) and perfluorooctanoic acid (PFOA) on IL-2 production in human T-cells. J Appl Toxicol 35:459-65|
|DiPiro, Nicole D; Holthaus, Katy D; Morgan, Patrick J et al. (2015) Lower Extremity Strength Is Correlated with Walking Function After Incomplete SCI. Top Spinal Cord Inj Rehabil 21:133-9|
|Bonilha, Heather Shaw; Focht, Kendrea L; Martin-Harris, Bonnie (2015) Rater methodology for stroboscopy: a systematic review. J Voice 29:101-8|
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