New perspectives in cardiology: pharmacodynamic classification of antiarrhythmic drugs

Abstract

Recent advancements in cardiac pharmacology and physiology have led to the identification of many new antiarrhythmic drugs and a better understanding of basic arrhythmogenic mechanisms. These parallel developments prompted a new nomenclature system for classifying the clinically important antiarrhythmic drugs according to their predominant electrophysiologic actions in cardiac cells. Antiarrhythmic drugs are now grouped into 4 main classes: classes I through IV. Class I agents comprise the standard membrane-stabilizing drugs such as lidocaine, quinidine, and procainamide; newer class I agents include disopyramide, aprindine, tocainide, and flecainide. Class II agents decrease sympathoadrenal excitation of the heart, and the clinically relevant members of this type act through blockade of the cardiac beta 1-adrenergic receptors; propranolol is the prototype. Class III agents selectively prolong the cardiac action potential and refractory period, and bretylium and amiodarone represent this group. Class IV agents are the calcium entry blocking drugs such as verapamil. An understanding of this classification system is essential to the internist and cardiologist who are beset with an emerging array of new antiarrhythmic drugs and affiliated pharmacodynamic terminologies.