Eight (or more) kinds of alternans

Cardiac electrical alternans is an alternating rhythm in the electrical propel-ties of the heart, such as cellular action potential duration, conduction velocity, and/or intracellular calcium (Ca) concentrations. These alternations can initiate reentrant arrhythmias and can also break up ongoing reentry, creating ventricular fibrillation. Alternans can take several forms. The alternation in time can be uniforrn in space (concordant alternans) or can have regions that are out of phase with other regions (discordant alternans). Alternans can be driven by voltage instabilities (involving electrical restitution) or by Ca instabilities. In addition, the relation between voltage and Ca can be positive or negative. Anatomical factors can play a role in generating spatially discordant alternans, but there is also a critical role for instabilities that are dynamically generated and can only be understood as the response of a nonlinear medium to periodic excitation. This is especially true of spatially discordant altemans, the most deadly form. We will review the role of factors such as action potential duration, conduction velocity, and Ca, which interact with each other to produce alternans. Simulations of cardiac conduction support these conclusions, as do experiments in a variety of animal and human preparations. (c) 2007 Elsevier Inc. All rights reserved.