wrong, an error that was confirmed by a number of completely unsuccessful clinical trials that failed to show the benefits with a range of putative infarct-reducing agents. The main reason for this discrepancy lay in the time of administration of the compounds (i.e., before the onset of ischemia in the experimental setting, after the infarct in the clinical one).It then became apparent that early reperfusion was a prerequisite for the salvage of ischemic tissue. At the same time, it became also evident that reperfusion per se can be, paradoxically, dangerous, increasing rather than reducing the extension of the infarct.The second line of research related to cardiac surgery. Quickly, coronary artery bypass became a standard procedure for patients with angina and, with the time, this was extended, although with poor results, to evolving myocardial infarction (MI). No doubt that the surgeons had the monopoly of reperfusion and indeed they managed to develop techniques such as cardioplegia and hypothermia able to protect against the damage induced by reperfusion. Once again, the success of these techniques relies on their application before induction of ischemia.The third line of research is linked to pharmacologists who, in parallel with surgeons and pathologists, questioned that the thrombus was the result of an infarct. They proved that, actually, it is the cause of the infarct and started to look at measures to dissolve the infarct-initiating thrombi.
Medicine has been undergoing constant changes, with cardiology being arguably the fastest changing field of all. The evolution -or should we say the revolution -of reducing the progression of coronary atherosclerosis with aspirin, angiotensin enzyme inhibitors and cholesterol-lowering drugs had a remarkable effect on the treatment of coronary artery disease. But perhaps one of the most important changes in cardiology is the ability to reperfuse the ischemic myocardium and consequently to reduce the deleterious effects of acute ischemia. Interestingly, during the second half of the century, 4 independent and different streams of research were initiated and would culminate in the ability to reperfuse the ischemic human heart.The first line of research related to pathophysiology. The 1960 s witnessed a remarkable increase in the systematic study of (1) the nature of atheroma and thrombosis and (2) the metabolic, contractive, ultrastructural and electrophysiological consequences of myocardial ischemia. Later, in part because of the relative ease of restoring coronary flow, investigators, including the authors of this review, turned their attention to the effects of reperfusion. 1-4 The idea of protecting the ischemic myocardium soon attracted a lot of enthusiasm and a cornucopia of compounds such as β-blockers, calcium antagonists, antiinflammatory drugs, and vasodilators were administered to animals with results that appeared dramatically successful. In the 1970 s and 1980 s, however, it became clear that this approach was Tissue salvage of severely ischemic myocardiu...
