Characterization of postischemic myocardial oxygen utilization

To define the pertubations in myocardial oxygen consumption (MVO2) previously noted after potassium-induced arrest, MVO2 was determined in 19 canine hearts during isovolumetric pressure-volume loading before and serially after 2 hr of cardioplegic ischemia at 200 C. Starling curves were initially unchanged after cardioplegic arrest, but postischemic propranolol (0.2 mg/kg) depressed peak developed pressure 36 + 4% and heart rate 24 + 1% (p < .01, for both). MVO2 indexed per beat and for left ventricular weight at defined ranges of peak developed pressure was augmented postischemically by 40% (p < .05) and this increased oxygen utilization persisted after attenuation of coronary hyperemia, normalization of oxygen extraction, 1 hr of reperfusion, and effective 13-adrenergicreceptor blockade. These data suggest that increased MVO2 to generate physiologic pressures is a sensitive biological marker for cardioplegic efficacy that is independent of coronary flow and oxygen uptake and is not solely attributable to increased 3-adrenergic stimulation.