Infarcted ventricular tissues from 12 patients showed heterogeneous electrophysiology, including prolonged action potentials and slow response potentials, providing a likely substrate for arrhythmias.
Observational (n=12)
Heterogeneous electrophysiologic characteristics in infarcted human ventricular tissue provide a likely cellular substrate for ventricular arrhythmias.
Ventricular tissues were obtained at the time of operation from 12 patients who underwent aneurysmectomy or mitral valve replacement. The electrophysiologic characteristics of these tissues were determined in a tissue bath using microelectrodes. Normal-appearing action potentials were recorded from surviving Purkinje fibers and ventricular muscle cells within infarcted ventricular tissues. Normal muscle action potential recordings from infarcted tissues were similar to action potentials from noninfarcted papillary muscles, except that the duration of the action potential was significantly longer in the former. In other areas slow response potentials were recorded. These action potentials conducted slowly and were eliminated by verapamil. We observed verapamil-sensitive slow response automaticity, but this did not correlate with ventricular tachycardias, present in three patients. Variable amplitude responses arising from normal resting potentials and characterized by stimulus intensity-dependent changes in action potential amplitude were recorded in tissues from two patients. These potentials had many characteristics similar to the slow response, but were not eliminated by verapamil. We also saw inexcitable cells with both normal and abnormal resting potentials. The heterogeneous electrophysiologic characteristics of these tissues provide a likely substrate for arrhythmias and may be the source of the ectopic ventricular rhythms observed in these patients.
Spear et al. (Thu,) conducted a observational in Myocardial infarction (n=12). Microelectrode tissue bath analysis vs. Noninfarcted papillary muscles was evaluated on Electrophysiologic characteristics of ventricular tissues. Infarcted ventricular tissues from 12 patients showed heterogeneous electrophysiology, including prolonged action potentials and slow response potentials, providing a likely substrate for arrhythmias.
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