Ionic, molecular, and cellular bases of QT-interval prolongation and torsade de pointes

doi:10.1093/europace/eum166

Europace 2007 9(Supplement 4):iv4-iv15; doi:10.1093/europace/eum166

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Ionic, molecular, and cellular bases of QT-interval prolongation and torsade de pointes

Charles Antzelevitch

Masonic Medical Research Laboratory, 2150 Bleecker Street, Utica, NY 13501, USA

Torsade de pointes (TdP) is a life-threatening arrhythmia thatdevelops as a consequence of a reduction in the repolarizationreserve of cardiac cells leading to amplification of electricalheterogeneities in the ventricular myocardium as well as tothe development of early afterdepolarization-induced triggeredactivity. Electrical heterogeneities within the ventricles aredue to differences in the time course of repolarization of thethree predominant cell types that make up the ventricular myocardium,giving rise to transmural voltage gradients and a dispersionof repolarization that contributes to the inscription of theelectrocardiographic T wave. A number of non-antiarrhythmicdrugs and antiarrhythmic agents with class III actions and/orthe various mutations and cardiomyopathies associated with thelong QT syndrome reduce net repolarizing current and amplifyspatial dispersion of repolarization, thus creating the substratefor re-entry. This results in a prolongation of the QT interval,abnormal T waves, and development of TdP. Agents that prolongthe QT interval but do not cause an increase in transmural dispersionof repolarization (TDR) do not induce TdP, suggesting that QTprolongation is not the sole or optimal determinant for arrhythmogenesis.This article reviews recent advances in our understanding ofthese mechanisms, particularly the role of TDR in the genesisof drug-induced TdP, and examines how these may guide us towardsdevelopment of safer drugs.

Key Words: LQTS, TdP, Electrophysiology, Sudden cardiac death, Transmural dispersion of repolarization, Arrhythmia

Corresponding author. Tel: +1 315 735 2217; fax: +1 315 735 5648. E-mail address: ca{at}mmrl.edu

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