Recent evidence suggests that postischemic myocardial dysfunction (stunning) may be mediated by oxygen free radicals, but the exact time window during which the critical radical-mediated damage develops remains unknown. Furthermore, the evidence for the oxyradical hypothesis is indirect and, therefore, inconclusive. Thus, the potent and cell-permeable antioxidant N-(2-mercaptopropionyl)-glycine (MPG) was administered as an intra-coronary infusion (8 mg/kg/hr) to three groups of open-chest dogs undergoing a 15-minute coronary occlusion followed by 4 hours of reperfusion. In group I (n = 8), the infusion of MPG was started 15 minutes before occlusion and ended 2 hours after reperfusion; in group II (n = 9), MPG was started 1 minute before reperfusion and ended 2 hours thereafter; in group III (n = 10), MPG was started 1 minute after reperfusion and ended 2 hours and 15 minutes thereafter. Control dogs (group IV) (n = 10) received vehicle. Recovery of contractile function (assessed as systolic wall thicken...
Recent studies suggest that the hydroxyl radical (.OH) plays a pathogenetic role in postischemic ventricular dysfunction (myocardial stunning). This concept, however, is predicated exclusively on results obtained in anesthetized open-chest preparations, which are subject to the confounding influence of many unphysiological conditions and in which both myocardial stunning and free radical generation are greatly exaggerated. The lack of supporting evidence in more physiological animal models represents a major limitation of the .OH hypothesis of stunning. Furthermore, concern has been raised that myocardial stunning may be a period of rest necessary for full recovery, so that attenuation of the early phase of stunning by antioxidant therapy may have subsequent detrimental effects on the resting function and/or on the return of myocardial contractile reserve. To address these issues, in phase 1 of this study conscious unsedated dogs undergoing a 15-minute coronary artery occlusion received an intravenous...
