Abstract
The Purkinje network is a specialized conduction system within the heart that ensures the proper activation of the ventricles to produce effective contraction. Its role during ventricular arrhythmias is less clear, but some experimental studies have suggested that the Purkinje network may significantly affect the genesis and maintenance of ventricular arrhythmias. Despite its importance, few structural models of the Purkinje network have been developed, primarily because current physical limitations prevent examination of the intact Purkinje network. In previous modeling efforts Purkinje-like structures have been developed through either automated or hand-drawn procedures, but these networks have been created according to general principles rather than based on real networks. To allow for greater realism in Purkinje structural models, we present a method for creating three-dimensional Purkinje networks based directly on imaging data. Our approach uses Purkinje network structures extracted from photographs of dissected ventricles and projects these flat networks onto realistic endocardial surfaces. Using this method, we create models for the combined ventricle-Purkinje system that can fully activate the ventricles through a stimulus delivered to the Purkinje network and can produce simulated activation sequences that match experimental observations. The combined models have the potential to help elucidate Purkinje network contributions during ventricular arrhythmias.
Highlights
Cardiac arrhythmias are disruptions in the normal electrical activity of the heart
Ventricular arrhythmias can rapidly become lifethreatening if normal electrical activity is not restored, which usually requires the use of aggressive techniques such as defibrillation
Our goal is to extend this recent approach to develop a method for accurate modeling of the three-dimensional Purkinje network structure
Summary
Cardiac arrhythmias are disruptions in the normal electrical activity of the heart. The heart functions through mechanical contraction, which is a byproduct of electrical excitation of cardiac tissue. Disruptions in this electrical activity can compromise the contraction of the cardiac muscle, leading to ineffective pumping of blood. While some types of arrhythmias have little noticeable effect, others are potentially lethal. Ventricular arrhythmias are especially dangerous because of the critical role the ventricles play in normal heart rhythm. The ventricles are thick, muscular chambers that actively pump blood out of the heart and throughout the body. Ventricular arrhythmias can rapidly become lifethreatening if normal electrical activity is not restored, which usually requires the use of aggressive techniques such as defibrillation
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