Histochemical and fluorescent techniques for detection of early myocardial ischemia following experimental coronary artery occlusion: a comparative and quantitative study.

Several workers have used histochemical, enzymatic, and fluorescent methods to diagnose early myocardial ischemia, but the problem of unequivocal detection of early ischemia still remains an enigma to pathologists. In the present study, the left coronary artery was ligated in an animal model, rat, in order to produce myocardial ischemia at different time intervals, from five minutes to six hours. Fluorescent techniques and tetrazolium staining of myocardial succinic dehydrogenases have been used to detect onset of ischemia with the purpose of identifying a sensitive technique for use in routine pathologic specimens. Nitroso-blue tetrazolium and triphenyl tetrazolium chloride staining of myocardium showed loss of dehydrogenases within five to twenty minutes of ligation of the coronary artery. This loss was consistent and progressively increased at longer time intervals, the mean ischemic area mapped being 25.74 mm2 and 66.87 mm2 at five to twenty minutes and six hours respectively. Such comparison of ischemic area of myocardium at different time intervals has not been reported earlier. Autofluorescence in formalin-fixed, hematoxylin and eosin-stained sections showed positive fluorescence only after fifty to seventy-five minutes of ischemia and was patchy in distribution in the left ventricular wall even up to six hours of ligation. Examination of myocardium under fluorescent light after acridine orange staining proved to be more sensitive than autofluorescence for detecting ischemia. At five to twenty minutes, the mean ischemic area was 18.67 mm2 and by six hours it increased to 27.48 mm2.(ABSTRACT TRUNCATED AT 250 WORDS)