Title :
The safety factor approach in the analysis of reentrant patterns of activation in the ischemic virtual heart
Author :
Romero, L. ; Trenor, B. ; Ferrero, JM, Jr. ; Sáiz, J. ; Moltó, G. ; Alonso, JM
Author_Institution :
Univ. Politec. de Valencia, Valencia
fDate :
Sept. 30 2007-Oct. 3 2007
Abstract :
Traditionally, VF has been directly related to dispersion of refractoriness. However, further theoretical studies relating refractoriness and reentry generation would be helpful to understand their implication. Recently, the safety factor for conduction (SF) has been proposed as a useful parameter to analyze propagation of action potential (AP) and conduction block. In this work, the relative role of refractoriness and the source-sink relationship in conduction block leading to reentry during regional ischemia has been analyzed. Our results show that a) premature stimuli applied at CIs comprised between 170 ms and 204 ms lead to reentry, b) the distribution of SF during reentry is very similar for all the conducted simulations and c) in one third of the re-entries the premature stimulus was blocked at sites where the excitability of the cells was completely recovered.
Keywords :
bioelectric phenomena; cardiology; cellular biophysics; action potential propagation; conduction block; conduction safety factor; ischemic virtual heart; reentrant activation pattern analysis; reentry generation; refractoriness dispersion; regional ischemia; safety factor approach; safety factor distribution; source-sink relationship; time 170 ms to 204 ms; ventricular fibrillation; Biomembranes; Computational Intelligence Society; Extracellular; Fibrillation; Heart ventricles; Ischemic pain; Morphology; Myocardium; Pattern analysis; Safety;
Conference_Titel :
Computers in Cardiology, 2007
Conference_Location :
Durham, NC
Print_ISBN :
978-1-4244-2533-4
Electronic_ISBN :
0276-6547
DOI :
10.1109/CIC.2007.4745485
