Effects of cardiac sodium channel mutations on the vulnerable period in heterogeneous vs homogeneous models of ventricular wall

A. Kapela; A. Bezerianos

Effects of cardiac sodium channel mutations on the vulnerable period in heterogeneous vs homogeneous models of ventricular wall

A. Kapela, A. Bezerianos

School of Medicine

Research output: Contribution to journal › Conference article › peer-review

Abstract

In this study we compare the effects of Na⁺ channel mutations on vulnerable period (VP) in hetero- versus homogeneous model of ventricular wall. According to several articles, some Na⁺ channel mutations and class I antiarrhythmics prolong VP in homogeneous models and increase risk of reentrant arrhythmias. Here more realistic model is used by introducing physiological transmural heterogeneity into a one-dimensional cable of the Luo-Rudy model cells. We propose a generalized formula for VP and describe new phenomena pertaining to VP not reported with the uniform models. Our simulation results show that the homogeneous models cannot adequately reproduce the effects of loss of Na⁺ channel functions on VP. Differences in results are significant both qualitatively and quantitatively. The proarrhythmic effect may not be, therefore, due to extended VP.

Original language	English (US)
Pages (from-to)	533-536
Number of pages	4
Journal	Computers in cardiology
Volume	31
State	Published - Dec 1 2004
Event	Computers in Cardiology 2004 - Chicago, IL, United States Duration: Sep 19 2004 → Sep 22 2004

ASJC Scopus subject areas

Computer Science Applications
Cardiology and Cardiovascular Medicine

Cite this

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title = "Effects of cardiac sodium channel mutations on the vulnerable period in heterogeneous vs homogeneous models of ventricular wall",

abstract = "In this study we compare the effects of Na+ channel mutations on vulnerable period (VP) in hetero- versus homogeneous model of ventricular wall. According to several articles, some Na+ channel mutations and class I antiarrhythmics prolong VP in homogeneous models and increase risk of reentrant arrhythmias. Here more realistic model is used by introducing physiological transmural heterogeneity into a one-dimensional cable of the Luo-Rudy model cells. We propose a generalized formula for VP and describe new phenomena pertaining to VP not reported with the uniform models. Our simulation results show that the homogeneous models cannot adequately reproduce the effects of loss of Na+ channel functions on VP. Differences in results are significant both qualitatively and quantitatively. The proarrhythmic effect may not be, therefore, due to extended VP.",

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T1 - Effects of cardiac sodium channel mutations on the vulnerable period in heterogeneous vs homogeneous models of ventricular wall

AU - Kapela, A.

AU - Bezerianos, A.

PY - 2004/12/1

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N2 - In this study we compare the effects of Na+ channel mutations on vulnerable period (VP) in hetero- versus homogeneous model of ventricular wall. According to several articles, some Na+ channel mutations and class I antiarrhythmics prolong VP in homogeneous models and increase risk of reentrant arrhythmias. Here more realistic model is used by introducing physiological transmural heterogeneity into a one-dimensional cable of the Luo-Rudy model cells. We propose a generalized formula for VP and describe new phenomena pertaining to VP not reported with the uniform models. Our simulation results show that the homogeneous models cannot adequately reproduce the effects of loss of Na+ channel functions on VP. Differences in results are significant both qualitatively and quantitatively. The proarrhythmic effect may not be, therefore, due to extended VP.

AB - In this study we compare the effects of Na+ channel mutations on vulnerable period (VP) in hetero- versus homogeneous model of ventricular wall. According to several articles, some Na+ channel mutations and class I antiarrhythmics prolong VP in homogeneous models and increase risk of reentrant arrhythmias. Here more realistic model is used by introducing physiological transmural heterogeneity into a one-dimensional cable of the Luo-Rudy model cells. We propose a generalized formula for VP and describe new phenomena pertaining to VP not reported with the uniform models. Our simulation results show that the homogeneous models cannot adequately reproduce the effects of loss of Na+ channel functions on VP. Differences in results are significant both qualitatively and quantitatively. The proarrhythmic effect may not be, therefore, due to extended VP.

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AN - SCOPUS:28144462683

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T2 - Computers in Cardiology 2004

Y2 - 19 September 2004 through 22 September 2004

ER -

Effects of cardiac sodium channel mutations on the vulnerable period in heterogeneous vs homogeneous models of ventricular wall

Abstract

ASJC Scopus subject areas

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