Proposed role of energy supply in the genesis of delayed afterdepolarizations--implications for ischemic or reperfusion arrhythmias.

Delayed afterdepolarizations (DADs) are Ca ++ -dependent electrophysiological abnormalities, which are evoked by a variety of conditions that induce intracellular Ca ++ overload, including fast pacing, isoproterenol, dibutyryl cyclic AMP, and intracellular injection for Ca ++ . Since Ca ++ overload is suspected of playing a role in both ischemic and reperfusion cellular damage, a reasonable hypothesis would be that DADs could play a role in ischemic or reperfusion arrhythmias, No direct proof has, however, been obtained for such a role for DADs. We propose that DADs could be associated with arrhythmias in which there is Ca ++ overload of sufficient magnitude to cause an increased oscillatory release of Ca ++ from the sarcoplasmic reticulum (SR), provided energy is available in the form of ATP. A sustained increase of Ca ++ is likely to reflect energy depletion and therefore exclude a significant contribution of DADs to arrhythmia development. Thus, DADs are more likely to play a role in: (i) reperfusion arrhythmias and (ii) arrhythmias arising in moderately ischemic tissue, than in severe ischemia with marked energy depletion.