Monophasic action potential recordings in response to graded hyperkalemia in dogs.

Recent interest in sudden cardiac death during exercise in normal healthy people has highlighted the possible role of swings of extracellular potassium in arrhythmogenesis in conditions other than ischemia. Regional differences in action potential duration and conduction may be important. We have recorded monophasic action potentials (MAPs) from the endocardium and epicardium in nine open-chest dogs during graded intravenous infusion of potassium up to a plasma level of 9 mM. The animals were anesthetized with alpha-chloralose and urethan. Continuous, online arterial potassium monitoring was employed. MAP duration showed a biphasic response with initial shortening up to 7 mM, which tended to be more obvious on the epicardium. Regional activation time was measured as the difference between the onset of depolarization of the endocardial and epicardial MAP. Regional activation time also showed a biphasic response with initial shortening and subsequent delay. The QRS width of the scalar lead II electrocardiogram also showed biphasic changes, and the T wave amplitude progressively decreased. Our results suggest that regional differences in repolarization time may develop in the nonischemic myocardium in response to increased extracellular potassium levels mainly as a result of local changes in regional activation time rather than as a result of a direct effect on action potential duration.