We seek sponsorship from the NIH to support our innovative and successful program in the fundamentals and applications of neuroimaging, that is premised on the belief that neuroscientists of tomorrow are likely to require mastery of neuroimaging methods and principles in their work to address the growing burden of neurological disease and to perform the studies that will best advance our understanding of human behavior and cognition this applications includes both T-90 and R-90 components for our pre-doctoral students. The UCLA Comprehensive Neuroimaging Training Program (NITP) trains pre-doctoral students in principles of neuroimaging that are fundamental - common to most or all neuroimaging - in recognition of the rapid changes that have occurred and will continue in imaging technology. They are exposed to an unusually complete range of imaging approaches from cellular to whole brain, from structural to dynamic and inclusive of advanced multi- modality imaging. The NITP is both complementary to, and participatory in, existing programs in neurosciences and computational biology already well established at UCLA. The students benefit from the large and experience neuroimaging faculty and from courses newly developed for this program. The NITP has become integral to the graduate programs in multiple departments where its core courses in the Principles of Neuroimaging serve to bridge and integrate neuroscience, computation, physics and signal processing. Rounding out the NITP we have developed a summer Short Course consisting of an annual two-week course in Advanced Functional Neuroimaging. This course brings in 30 to 40 carefully selected scholars for an immersive program in advanced topics and methods, including lecture style classroom training, daily computer labs focused on computational tools and MRI physics, and imaging projects developed, run and analyzed by the student participants.

Public Health Relevance

The impact of Neuroimaging on brain studies at the anatomical and functional levels is overwhelming, and has changed the manner in which investigators approach the human brain in particular. The methods of neuroimaging are complex and varied. Traditionally, there has been a separation between people expert in imaging technology and those who are expert in neuroscience. This proposal asks for the continuation of an innovative and highly successful training program in Neuroimaging that demands that its students bridge the gap between technology and experimental science and in so doing expose foundational features that cut across the many imaging tools and the biological targets of neuroscience research and that can be treated with similar mathematical and conceptual formalisms.

Agency
National Institute of Health (NIH)
Institute
National Institute on Drug Abuse (NIDA)
Type
Interdisciplinary Research Training Award (T90)
Project #
5T90DA022768-09
Application #
8726358
Study Section
Special Emphasis Panel (ZDA1)
Program Officer
Grant, Steven J
Project Start
2006-09-30
Project End
2016-08-31
Budget Start
2014-09-01
Budget End
2015-08-31
Support Year
9
Fiscal Year
2014
Total Cost
Indirect Cost
Name
University of California Los Angeles
Department
Type
Overall Medical
DUNS #
City
Los Angeles
State
CA
Country
United States
Zip Code
90095
Kerr, Wesley T; Janio, Emily A; Braesch, Chelsea T et al. (2018) An objective score to identify psychogenic seizures based on age of onset and history. Epilepsy Behav 80:75-83
Kerr, Wesley T; Janio, Emily A; Braesch, Chelsea T et al. (2017) Identifying psychogenic seizures through comorbidities and medication history. Epilepsia 58:1852-1860
Kerr, Wesley T; Janio, Emily A; Braesch, Chelsea T et al. (2017) Diagnostic implications of review-of-systems questionnaires to differentiate epileptic seizures from psychogenic seizures. Epilepsy Behav 69:69-74
Kerr, Wesley T; Janio, Emily A; Le, Justine M et al. (2016) Diagnostic delay in psychogenic seizures and the association with anti-seizure medication trials. Seizure 40:123-6
Ching, Christopher R K; Hua, Xue; Hibar, Derrek P et al. (2015) Does MRI scan acceleration affect power to track brain change? Neurobiol Aging 36 Suppl 1:S167-77
Suthana, Nanthia A; Parikshak, Neelroop N; Ekstrom, Arne D et al. (2015) Specific responses of human hippocampal neurons are associated with better memory. Proc Natl Acad Sci U S A 112:10503-8
Douglas, Pamela K; Pisani, Maureen; Reid, Rory et al. (2014) Method for simultaneous fMRI/EEG data collection during a focused attention suggestion for differential thermal sensation. J Vis Exp :e3298
Schreiner, Matthew J; Karlsgodt, Katherine H; Uddin, Lucina Q et al. (2014) Default mode network connectivity and reciprocal social behavior in 22q11.2 deletion syndrome. Soc Cogn Affect Neurosci 9:1261-7
Kerr, Wesley T; Douglas, Pamela K; Anderson, Ariana et al. (2014) The utility of data-driven feature selection: re: Chu et al. 2012. Neuroimage 84:1107-10
LeMoyne, Robert; Kerr, Wesley T; Zanjani, Kevin et al. (2014) Implementation of an iPod wireless accelerometer application using machine learning to classify disparity of hemiplegic and healthy patellar tendon reflex pair. J Med Imaging Health Inform 4:21-28

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