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CARDIAC METABOLISM &FLOW

$0P41FY2002RRNIH

University Of Washington, Seattle WA

Investigators

Linked publications & trials

Abstract

The work to be accomplished encompasses 1. A series of studies to characterize heterogeneities in cardiac microvascular form and regional blood flows, using morphonetric techniques combined with microsphere-based measures of local flow, using new fractal autocorrelation techniques to determine the directionality of the correlations among local flows, and determining flow heterogeneity at high spatial resolution in large hearts. 2. The development of methods of analysis for interpreting signals from 15O-oxygen, 15O-water, and 15O-carbon monoxide residue functions (by PET imaging) in the heart and the methods for estimating regional oxygen consumption from these hearts and displaying parametric images of such features as local oxygen metabolic rate, vascular volumes, and permeability-surface area products. 3. A series of studies to determine if increased myocardial metabolism reduces the degree of flow heterogeneity in the heart overall in sheep during control states, adrenergic stimulation and atrial pacing. This research, in collaboration with PET imaging studies performed under the leadership of James H. Caldwell requires service support in radioisotope chemistry, in physics of PET imaging (equipment maintenance and software development) and in imaging procedures, all of which are in collaboration with personnel in Nuclear Medicine and Radiology. 4. To provide radiochemistry, PET physics and imaging support for studies of cardiac metabolism and flow (HL50238) and myocardial oxygenation (HL52039).

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