Title :
Computer modelization of myocardial depolarization: application to fibrillation
Author :
Bardou, Alain L. ; Auger, Pierre ; Coulombe, Alain ; Govaere, Marie-Claude ; Chesnais, Jean-Michel ; Von Euw, Dominique
Author_Institution :
Hopital Broussais, Paris, France
Abstract :
A physiological application of a previously described computer simulation of the ventricular activation wave front is presented. The model of the depolarizing wave inside the ventricular wall is based on Huyghen´s construction method and has, in a first step, been developed to reproduce normal conduction conditions. The study reported simulates the effects of a severe ischemia, when cellular depolarization occurs, leading to progressive inactivation of sodium channels and resulting in conduction velocity decrease and dispersion of refractory periods. The model shows that reducing conduction velocity has an effect on myocardium contraction but does not seem sufficient to induce reentry. On the contrary, dispersion of refractory periods, even in a small range (17%), can induce percolation reentries, resulting in anarchic contractions and ventricular fibrillation
Keywords :
bioelectric phenomena; biology computing; cardiology; digital simulation; physiological models; Huyghen´s construction method; Na+ channels inactivation; anarchic contractions; computer modelling; conduction velocity; myocardial depolarization; myocardium contraction; percolation reentries; reentry; refractory periods dispersion; severe ischemia; ventricular fibrillation; Application software; Biomembranes; Cells (biology); Dispersion; Engineering in medicine and biology; Fibrillation; Ischemic pain; Myocardium; Tellurium; Visualization;
Conference_Titel :
Engineering in Medicine and Biology Society, 1989. Images of the Twenty-First Century., Proceedings of the Annual International Conference of the IEEE Engineering in
Conference_Location :
Seattle, WA
DOI :
10.1109/IEMBS.1989.96537
