The aim of this investigation was to examine whether any correlation exists between enzymatically estimated infarct size and arrhythmias arising in response to coronary reperfusion. Four hour occlusion of the left anterior coronary artery followed by reperfusion was carried out in conscious dogs. Serum creatine phosphokinase (CPK) analysis and planimetric determination of infarct size were performed. The Holter monitoring technique was used to analyze the arrhythmias. A good correlation was observed between the number of premature ventricular complexes (PVC) occurring during 4-h coronary artery occlusion and peak serum CPK values (CPKmax; r = 0.74). While PVC in the early 2-h reperfusion phase and on days 1 and 2 of the late reperfusion phase did not show a correlation with CPKmax nor with occlusion arrhythmias, arrhythmic activity on day 3 of the late reperfusion phase correlated well with CPKmax (r = 0.71) and occlusion arrhythmias (r = 0.75). Whereas it cannot be ruled out that arrhythmias on days 1 and 2 are related to coronary reperfusion as well as to the established infarction, we speculated that arrhythmias on day 3 are delayed arrhythmias in response to the occlusion procedure and not a consequence of reperfusion. Providing that arrhythmias occurring in the early reperfusion phase are almost exclusively induced by the arrhythmogenic phenomenon of reperfusion, we conclude that in contrast to occlusion arrhythmias, reperfusion arrhythmias are not markers of infarct size. Thus, a higher number of arrhythmias after reperfusion is not necessarily associated with a larger infarct size.