Sort by
Refine Your Search
-
Program
-
Field
-
leveraging multiple rich data sets and leading-edge analytic approaches supported by multiple NIH grants (R, U and P programs). Topics include (a) human genetics of ADRD using quantitative endophenotypes from
-
dissemination of findings(manuscripts, presentations) from multiple NIH-funded clinical trials and studies. Additional opportunities include contributing to studies on youth-participatory and community-engaged
-
pathophysiology of the inner ear using multiple genetic mouse models and a novel human stem cell-derived 3D inner ear organoid model. We study genetically-mediated hair cell and neuronal degeneration in these model
-
to identify novel targets for diagnostic use and therapeutic intervention. Fellows will work on research problems using rich data sets and leading-edge analytic approaches supported by multiple NIH grants (R, U
-
are investigated as well. Example projects include tailored process improvement in primary care, telehealth for people with multiple chronic conditions, scalable quality improvement through data-driven
-
activity, and sleep. Our research is funded by multiple institutes at the National Institute of Health (NIH) including the National Institute on Aging (NIA) and National Institute of Neurological Disorders
-
by time of appointment. The proposed research will leverage multiple computational many-body techniques (including classical and quantum Monte Carlo, molecular dynamics, and ab initio methods) and
-
and green infrastructure in fostering climate resilience for Midwest ecosystems. Phase one of this project will yield a model based on multiple urbanized systems that will form the backbone of a “best