Bioelectric source characterization of acute myocardial ischemia

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Title Bioelectric source characterization of acute myocardial ischemia
Publication Type dissertation
School or College College of Engineering
Department Biomedical Engineering
Author Aras, Kedar Kirtikumar
Date 2015
Description Despite a century of research and practice, the clinical accuracy of the electrocardiogram (ECG) to detect and localize myocardial ischemia remains less than satisfactory. Myocardial ischemia occurs when the heart does not receive adequate oxygen-rich blood to keep up with its metabolic requirements, and severe ischemia can lead to myocardial infarction and life-threatening arrhythmias. Early and accurate detection is an essential component of managing this condition. Ischemia is known to be a dynamic condition that reflects a changing imbalance between blood supply and metabolic demand so that it is natural that examination under physical stress conditions or exercise testing (ET) is in widespread clinical use. However, ET is characterized by poor sensitivity (68%) and specificity (77%), limiting its diagnostic usefulness and providing the motivation to address some gaps in our understanding of myocardial ischemia and its ECG signature. This dissertation is composed of three studies. The aim of the first study was to evaluate the conventionally held mechanisms for nontransmural ischemia using intramural electrodes to measure three-dimensional potential distributions in the ventricles of animals exposed to acute ischemia. We demonstrated that contrary to accepted dogma, the electrocar- diographic response of acute myocardial ischemia originated throughout the ventricular wall, i.e., in the subendocardium, midmyocardium, or the subepicardium, under various conditions. Our goal in the second study was to evaluate whether acute myocardial ischemia follows a similar pattern of spatial and temporal evolution as seen in myocardial infarction. Our findings show that the spatial and temporal evolution of acute ischemia is characterized by multiple distinct regions that expand in all three directions, with maximal expansion in the circumferential direction, especially in the early stages of ischemic development. Furthermore, with increased stress, these regions continue to expand and eventually merge into one another, and in the extreme become transmural. The progression of myocardial infarction, by contrast, was very quickly transmural in extent and formed a cohesive block of affected tissues. The aim of the third study was to evaluate the sensitivity of epicardial electrical markers of acute ischemia relative to direct evidence of ischemia derived from intramural electro- grams. The key finding from this study is that the epicardial T-wave is a more sensitive index of acute ischemia than epicardial ST segment changes, especially in the early stages of acute ischemia development.
Type Text
Publisher University of Utah
Subject Cardiac Electrophysiology; Coronary Artery Disease; ECG; Heart Attack; Myocardial Ischemia; Physiology
Dissertation Institution University of Utah
Dissertation Name Doctor of Philosophy
Language eng
Rights Management Copyright © Kedar Kirtikumar Aras 2015
Format application/pdf
Format Medium application/pdf
Format Extent 27,644 bytes
Identifier etd3/id/3889
ARK ark:/87278/s6gf42tf
Setname ir_etd
ID 197440
Reference URL https://collections.lib.utah.edu/ark:/87278/s6gf42tf
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