The Dynamics of Cardiac Fibrillation

Overview

Journal Circulation

Specialty Cardiology & Vascular Diseases

Date 2005 Aug 24

PMID 16116073

Citations 116

Authors

James N Weiss

Zhilin Qu

Peng-Sheng Chen

Shien-Fong Lin

Hrayr S Karagueuzian

Hideki Hayashi

Alan Garfinkel

Alain Karma

Affiliations

Soon will be listed here.

Abstract

Reentry occurs when the electrical wave propagating through the atria or ventricles breaks locally and forms a rotor (also called a scroll wave or functional reentry). If the waves propagating outward from a rotor develop additional wavebreaks (which may form new rotors), fibrillation results. Tissue heterogeneity, exacerbated by electrical and structural remodeling from cardiac disease, has traditionally been considered the major factor promoting wavebreak and its degeneration to fibrillation. Recently, however, dynamic factors have also been recognized to play a key role. Dynamic factors refer to cellular properties of the cardiac action potential and Ca(i) cycling, which dynamically generate wave instability and wavebreak, even in tissue that is initially completely homogeneous. Although the latter situation can only be created in computer simulations, its relevance to real (heterogeneous) cardiac tissue has been unequivocally demonstrated. Dynamic factors are related to membrane voltage (Vm) and Ca(i). Vm factors include electrical restitution of action potential duration and conduction velocity, short-term cardiac memory, and electrotonic currents. Ca(i) factors are related to dynamic Ca(i) cycling properties. They act synergistically, as well as with tissue heterogeneity, to promote wavebreak and fibrillation. As global properties, rather than local electrophysiological characteristics, dynamic factors represent an attractive target for novel therapies to prevent ventricular fibrillation.

Citing Articles

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Complex repolarization dynamics in ex vivo human ventricles are independent of the restitution properties.

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