Effects of experimental myocardial infarction on the ST segment response to tachycardia
DM Mirvis,
JL Wilson,
and
KB Ramanathan
Prior studies have shown that tachycardia results in ST segment depression in dogs with chronic, gradual coronary occlusion. This response was compared with that produced by acute, total occlusion of the left anterior descending artery. Ten dogs served as controls; in another 10 dogs, an ameroid constrictor was implanted about the left anterior descending artery. This artery was acutely ligated in a third set of 10 animals, and in a final set of 10, the distal left anterior descending coronary vasculature was embolized by latex injection. Tachycardia was produced by atrial pacing from rates of 90 to 250 beats/min using implanted atrial electrodes. Electrocardiographic signals registered from 84 torso electrodes were used to construct body surface isopotential maps during the ST segment. In normal dogs, pacing increased repolarization potentials without shifts in spatial features. New and abnormal anterior negativity, correlating with significant ST depression, appeared at rates of 170 beats/min or faster in dogs with ameroid constriction. However, in both groups with acute occlusion that produced transmural myocardial infarction, tachycardia resulted in increases in anterior ST elevation and reciprocal ST depression. Specific findings demonstrated the lead dependency of the response to tachycardia and the greater than normal increase in potential magnitudes after infarction than in control cases. The similarity of the response with acute occlusion and with embolization suggested that the response to tachycardia after infarction was not dependent on coronary collateral function but may represent a direct electrophysiologic effect of rate. Thus, these acute occlusion models simulate exercise-induced ST segment elevation as it may be seen clinically.
