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Cerberal Diffusion and Perfusion Correlation using Biologic Parametric Mapping

$119,064R01FY2005EBNIH

Wake Forest University Health Sciences, Winston-Salem NC

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Abstract

[unreadable] DESCRIPTION (provided by candidate): [unreadable] The objective of this supplement is to provide a structured year of research training to a clinical resident [unreadable] under the mentorship of a NIBIB funded investigator. The parent grant for this supplement is composed of two components: a neuroinformatics component and a biologic component. The neuroinformatics [unreadable] component of the parent grant will develop multiple toolboxes including a biologic parametric mapping [unreadable] toolbox (BPM) for the statistical analysis of multimodal image data to be used in the current supplement. In this supplement, the BPM toolbox will be used to combine information from diffusion imaging and perfusion imaging in a diabetic patient population. The overarching hypothesis for Dr. Kaufman's research project is that changes in white matter in diabetic patients will be correlated with decreased perfusion in a regionally specific manner. Dr. Kaufman will be trained in the use of the BPM toolbox and he will implement the analyses of the data using the neuroinformatics tools from the parent project. The educational training plan proposed for Dr. Kaufman has four elements: 1) development of knowledge through didactic course work in statistics, neuroscience, as well as attending journal club meetings and institutional seminars; 2) mastery of brain imaging research skills through study design, data collection, and data analyses under mentor guidance; 3) introduction to translational genomics research through participation in a practical laboratory rotation in the Human Genomics Center at Wake Forest University; and 4) training in research ethics and medical conduct. [unreadable] [unreadable]

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