Abstract

Prolongation of the QTc interval has been associated with proarrhythmia resulting from a potentially fatal form of polymorphic ventricular tachycardia called torsades de pointes (TdP). Genetic forms of the long-QT syndrome (LQTS) associated with high arrhythmic risk have been causally related to mutations in ion channels responsible for the cardiac action potential; genetic factors associated with milder degrees of QTc prolongation and arrhythmic risk have also been described. Acquired forms of QTc prolongation and proarrhythmia, particularly related to drug therapy, are frequently related to drug effects on the same ion channels involved in genetic forms of LQTS. As is true for genetic forms of LQTS, there is a wide spectrum of potential drug effects on the QTc interval ranging from trivial to potentially lethal. Drug-induced QTc prolongation is a complicated phenomenon related not just to the properties or dose of a particular drug but also to drug-drug interactions and a variety of patient factors, including age, gender, the presence and severity of underlying heart disease, and genetic predisposition. Additionally, drug effects on other ion channels, including blockade of sodium channels (causing prolongation of the QRS interval rather than the QTc interval), are an important cause of drug-induced proarrhythmia. The purpose of this review is to summarize the available data related to acquired forms of LQTS, with particular focus on drug-related LQTS and proarrhythmia. A brief summary is presented here of genetic LQTS because the relevant genes and proteins form the basis for an understanding of the causes of acquired LQTS, and in any given patient, the QTc is determined by genetic, substrate, and environmental factors. Emphasis is placed on practical strategies for clinicians, with the goal of minimizing the risk of dangerous proarrhythmia related to the use of both cardiac and noncardiac drugs with the potential for QTc prolongation. Genetic …

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