Interrogation of the cardiac electroanatomical substrate

Update Item Information
Title Interrogation of the cardiac electroanatomical substrate
Publication Type dissertation
School or College College of Engineering
Department Biomedical Engineering
Author Blauer, Joshua Jacob Evans
Date 2015
Description Atrial fibrillation (AF) is the leading cause of ischemic stroke and is the most commonly observed arrhythmia in clinical cardiology. Catheter ablation of AF, in which specific regions of cardiac anatomy associated with AF are intenionally injured to create scar tissue, has been honed over the last 15 years to become a relatively common and safe treatment option. However, the success of these anatomically driven ablation strategies, particularly in hearts that have been exposed to AF for extended periods, remains poor. AF induces changes in the electrical and structural properties of the cardiac tissue that further promotes the permanence of AF. In a process known as electroanatomical (EAM) mapping, clinicians record time signals known as electrograms (EGMs) from the heart and the locations of the recording sites to create geometric representations, or maps, of the electrophysiological properties of the heart. Analysis of the maps and the individual EGM morphologies can indicate regions of abnormal tissue, or substrates that facilitate arrhythmogenesis and AF perpetuation. Despite this progress, limitations in the control of devices currently used for EAM acquisition and reliance on suboptimal metrics of tissue viability appear to be hindering the potential of treatment guided by substrate mapping. In this research, we used computational models of cardiac excitation to evaluate param- eters of EAM that affect the performance of substrate mapping. These models, which have been validated with experimental and clinical studies, have yielded new insights into the limitations of current mapping systems, but more importantly, they guided us to develop new systems and metrics for robust substrate mapping. We report here on the progress in these simulation studies and on novel measurement approaches that have the potential to improve the robustness and precision of EAM in patients with arrhythmias. Appropriate detection of proarrhythmic substrates promises to improve ablation of AF beyond rudimentary destruction of anatomical targets to directed targeting of complicit tissues. Targeted treatment of AF sustaining tissues, based on the substrate mapping approaches described in this dissertation, has the potential to improve upon the efficacy of current AF treatment options.
Type Text
Publisher University of Utah
Subject Heart - Electric properties; Electrocardiograph; Atrial fibrillation
Dissertation Name Doctor of Philosophy
Language eng
Rights Management ©Joshua Jacob Evans Blauer
Format application/pdf
Format Medium application/pdf
Format Extent 27,603 bytes
Identifier etd3/id/3991
ARK ark:/87278/s6f2270w
Setname ir_etd
ID 197541
Reference URL https://collections.lib.utah.edu/ark:/87278/s6f2270w
Back to Search Results