This subproject represents an estimate of the percentage of the CTSA funding that is being utilized for a broad area of research (AIDS research, pediatric research, or clinical trials). The Total Cost listed is only an estimate of the amount of CTSA infrastructure going towards this area of research, not direct funding provided by the NCRR grant to the subproject or subproject staff. DESCRIPTION (provided by applicant): The goal of The Rockefeller University Center for Clinical and Translational Science is to improve human health by: 1. providing an infrastructure to conduct clinical investigation at the highest level, educational programs to train future generations of skilled and committed investigators, and novel methods of clinical investigation that can be shared with others, and 2. working closely with other CTSA institutions to set national standards so as to improve the conduct of clinical research. The 2006 Clinical and Translational Science Award transformed translational research at Rockefeller University and we propose to build on these accomplishments by: 1) enhancing our KL2 Master's degree and Certificate in Clinical and Translational Science educational programs;2) creating a new educational program for our current K08 and K23 awardees to speed their transition to scientific independence;3) expanding our bidirectional community engaged research with our partner institutions, integrating molecular mechanistic and population-based components, 4) completing the implementation of our integrated, customized information technology infrastructure to facilitate protocol development, review, and conduct;5) implementing a novel real-time monitoring system to insure compliance with Good Clinical Practice;6) enhancing our multi-disciplinary and multi-departmental Protocol Navigation program to speed protocol development, approval, and implementation, and extending it to bidirectional community engaged research;7) expanding the application of novel nonparametric biostatistical methods to genomic and community-based investigation;8) utilizing our new deep human phenotyping systems to aid scientific discovery and address important clinical needs;9) utilizing a validated measure of research participants'perceptions to improve the conduct of clinical research;and 10) continuing to actively participate in the national CTSA consortium to advance the discipline of clinical and translational science for the benefit of human health.
(provided by applicant): The Rockefeller University Center for Clinical and Translational Science is dedicated to improving human health by providing the resources and personnel to conduct the highest quality research to improve the prevention, diagnosis, and treatment of human disease. It also is producing novel methods to improve the scientific information obtained from clinical research studies and the way in which the research is performed.
|Keller, Andreas; Gerkin, Richard C; Guan, Yuanfang et al. (2017) Predicting human olfactory perception from chemical features of odor molecules. Science 355:820-826|
|Fisher, Ffolliott M; Kim, MiSung; Doridot, Ludivine et al. (2017) A critical role for ChREBP-mediated FGF21 secretion in hepatic fructose metabolism. Mol Metab 6:14-21|
|Zuo, Wu-Lin; Yang, Jing; Gomi, Kazunori et al. (2017) EGF-Amphiregulin Interplay in Airway Stem/Progenitor Cells Links the Pathogenesis of Smoking-Induced Lesions in the Human Airway Epithelium. Stem Cells 35:824-837|
|Butelman, Eduardo Roque; Bacciardi, Silvia; Maremmani, Angelo Giovanni Icro et al. (2017) Can a rapid measure of self-exposure to drugs of abuse provide dimensional information on depression comorbidity? Am J Addict 26:632-639|
|Duvall, Laura B; Basrur, Nipun S; Molina, Henrik et al. (2017) A Peptide Signaling System that Rapidly Enforces Paternity in the Aedes aegypti Mosquito. Curr Biol 27:3734-3742.e5|
|Ruane, Darren; Chorny, Alejo; Lee, Haekyung et al. (2016) Microbiota regulate the ability of lung dendritic cells to induce IgA class-switch recombination and generate protective gastrointestinal immune responses. J Exp Med 213:53-73|
|Levran, Orna; Randesi, Matthew; Peles, Einat et al. (2016) African-specific variability in the acetylcholine muscarinic receptor M4: association with cocaine and heroin addiction. Pharmacogenomics 17:995-1003|
|Fuentes-Duculan, Judilyn; Gulati, Nicholas; Bonifacio, Kathleen M et al. (2016) Biomarkers of alopecia areata disease activity and response to corticosteroid treatment. Exp Dermatol 25:282-6|
|Keller, Andreas; Vosshall, Leslie B (2016) Olfactory perception of chemically diverse molecules. BMC Neurosci 17:55|
|Guttman-Yassky, Emma; Ungar, Benjamin; Noda, Shinji et al. (2016) Extensive alopecia areata is reversed by IL-12/IL-23p40 cytokine antagonism. J Allergy Clin Immunol 137:301-304|
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