The University of California, Davis (UC Davis) is requesting continued support for the Clinical and Translational Science Center (CTSC). Since its initiation, the UC Davis CTSC has been firmly established as a major local, regional, and national leader in transforming the clinical and translational research enterprise and has received enthusiastic support from throughout UC Davis. The CTSC has created an extensive community of partners, ranging from the UC Davis Health System, colleges and schools to local community partners, regional partners including the University of Nevada and national partners, and other CTSA sites. The CTSC has fostered a cadre of successful trainees that are well prepared for a career trajectory in clinical and translational research, built an extensive infrastructure to support trainees, investigators, and community partners, and emerged as a major contributor to national CTSA goals. At the end of the initial funding period, the UC Davis CTSC is an organization that is: (1) responsive and familiar to investigators;(2) flexible;(3) versatile;(4) well-linked to university leadership, to participating academic units, and to the community;and (5) actively reducing barriers and facilitating translation of research gains into medical practice. The key features of our program are: education programs focused on """"""""team science"""""""";flexible Infrastructure;extensive collaborations across UC Davis;and engagement of local, regional, and national partners. The CTSC has played major leadership roles in establishing the national CTSA Consortium, and has been a leader or collaborator on 15 CTSA supplemental awards. In the next grant period, the CTSC will focus on 3 goals firmly anchored in our institutional fabric, the community, and the CTSA Consortium: (1) Completion of a comprehensive service and resource toolset for the research community;(2) Education and training of a well prepared workforce of trainees, staff, and investigators;and (3) Ensuring translational research is advanced to improve human health across the lifespan. To realize these goals, the CTSC will remain under the continued leadership of Lars Berglund, MD, PhD, supported by a cadre of directors and associate directors overseeing individual CTSC programs, and guided by a comprehensive committee structure designed to firmly anchor the CTSC with Institutional leadership, faculty, trainees, the community, and the national CTSA Consortium.
The UC Davis CTSC has established a strong training and infrastructure resource to support and promote health research. Through the CTSC, research findings relevant to health and disease are made available to health professionals and community members. In addition, the UC Davis CTSC is part of a national network to ensure a broad-based information exchange between scientists, health professionals, and community members.
|Zamuruyev, Konstantin O; Schmidt, Alexander J; Borras, Eva et al. (2018) Power-efficient self-cleaning hydrophilic condenser surface for portable exhaled breath condensate (EBC) metabolomic sampling. J Breath Res 12:036020|
|Yamaguchi, Mei S; McCartney, Mitchell M; Linderholm, Angela L et al. (2018) Headspace sorptive extraction-gas chromatography-mass spectrometry method to measure volatile emissions from human airway cell cultures. J Chromatogr B Analyt Technol Biomed Life Sci 1090:36-42|
|Baker, Molly; Wilson, Machelle; Wallach, Stacey (2018) Urogenital symptoms in women with Tarlov cysts. J Obstet Gynaecol Res 44:1817-1823|
|Magnan, Elizabeth M; Bolt, Daniel M; Greenlee, Robert T et al. (2018) Stratifying Patients with Diabetes into Clinically Relevant Groups by Combination of Chronic Conditions to Identify Gaps in Quality of Care. Health Serv Res 53:450-468|
|Yeo, Khung-Keong; Armstrong, Ehrin J; López, Javier E et al. (2018) Aspirin and clopidogrel high on-treatment platelet reactivity and genetic predictors in peripheral arterial disease. Catheter Cardiovasc Interv 91:1308-1317|
|Beddhu, Srinivasan; Chertow, Glenn M; Cheung, Alfred K et al. (2018) Influence of Baseline Diastolic Blood Pressure on Effects of Intensive Compared With Standard Blood Pressure Control. Circulation 137:134-143|
|Aaron, Phylicia A; Jamklang, Mantana; Uhrig, John P et al. (2018) The blood-brain barrier internalises Cryptococcus neoformans via the EphA2-tyrosine kinase receptor. Cell Microbiol 20:|
|Henry, Stephen G; Bell, Robert A; Fenton, Joshua J et al. (2018) Communication about chronic pain and opioids in primary care: impact on patient and physician visit experience. Pain 159:371-379|
|Corwin, Michael T; Khera, Satinderpal S; Loehfelm, Thomas W et al. (2018) Incidentally Detected Focal Fundal Gallbladder Wall Thickening at Contrast-Enhanced Computed Tomography: Prevalence and Computed Tomography Features of Malignancy. J Comput Assist Tomogr :|
|Dobre, Mirela; Gaussoin, Sarah A; Bates, Jeffrey T et al. (2018) Serum Bicarbonate Concentration and Cognitive Function in Hypertensive Adults. Clin J Am Soc Nephrol 13:596-603|
Showing the most recent 10 out of 476 publications