Dynamic Origin of Spatially Discordant Alternans in Cardiac Tissue

doi:10.1529/biophysj.106.091009

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Biophys. J. BioFAST: First Published October 27, 2006. doi:10.1529/biophysj.106.091009
© 2006 by the Biophysical Society.

A more recent version of this article appeared on January 15, 2007.

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BIOPHYSICAL THEORY AND MODELING

Dynamic Origin of Spatially Discordant Alternans in Cardiac Tissue

Hideki Hayashi ¹, Yohannes Shiferaw ²^*, Daisuke Sato ³, Motoki Nihei ⁴, Shien-Fong Lin ⁴, Peng-Sheng Chen ¹, Alan Garfinkel ⁵, James Weiss ⁵ and zhilin Qu ⁵

¹ Cedars Sinai Medical Center
² California State University, Northridge
³ Northeastern University
⁴ Cedars Sinai
⁵ UCLA

^* To whom correspondence should be addressed. E-mail: yshifera{at}yahoo.com.

Submitted on June 9, 2006
Revised on July 14, 2006
Accepted on 10 October 2006

Abstract
Alternans, a condition in which there is a beat-to-beat alternationin the electromechanical response of a periodically stimulatedcardiac cell, has been linked to the genesis of life-threateningventricular arrhythmias. Optical mapping of membrane voltage(V_m) and intracellular calcium (Ca_i) on the surface of animalhearts reveal complex spatial patterns of alternans. In particular,spatially discordant alternans has been observed, in which regionswith a large-small-large action potential duration (APD) alternateout-of-phase adjacent to regions of small-large-small APD. However, the underlying mechanisms that lead to the initiationof discordant alternans, and govern its spatiotemporal properties,are not well understood. Using mathematical modeling, we showthat dynamic changes in the spatial distribution of discordantalternans can be used to pinpoint the underlying mechanisms. Optical mapping of V_m and Ca_i in paced rabbit hearts revealedthat spatially discordant alternans induced by rapid pacingexhibits properties consistent with a purely dynamical mechanismas shown in theoretical studies. Our results support the viewpointthat spatially discordant alternans in the heart can be formedvia a dynamical pattern formation process which does not requiretissue heterogeneity.

Key Words: cardiac arrhythmias, discordant alternans, nonlinear dynamics, pattern formation

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