Magnetic resonance imaging allows evaluation of myocardial oedema associated with acute coronary occlusion and reperfusion, and analysis of its spatial distribution. Changes in myocardial water content occurring early during acute myocardial infarction allow quantification of the area at risk and detection of reperfusion by magnetic resonance imaging.
These results demonstrate that hypercontracture may be transmitted to adjacent myocytes through gap junctions and that heptanol may interfere with this transmission and reduce the final extent of myocardial necrosis during reoxygenation or reperfusion. These findings are consistent with the hypothesis tested and open a new approach to limitation of infarct size by pharmacological control of gap junction conductance.
Selective intracoronary infusion of BDM at doses inhibiting regional wall motion decreased infarct size after reperfusion. The effects of BDM on regional function, the reduction in contraction band necrosis at histology, and the peculiar configuration of these infarcts all suggest that inhibition of contracture can interfere with cell-to-cell progression of myocardial necrosis, supporting a role for contracture in reperfusion-induced cell death.
These results indicate that inhibition of Na(+)-H+ exchange during ischemia is necessary to limit myocardial necrosis secondary to transient coronary occlusion, and that this action could by mediated by a protective effect against ischemic contracture. Inhibition of Na(+)-H+ exchange only during reperfusion has a partial and transient beneficial effect, but only when the inhibitor reaches the area at risk before reflow.
The effect of coronary artery reperfusion on infarct size was studied in a pig heart model. Forty four open chest pigs underwent occlusion of the mid-left anterior descending artery. Fifteen minutes after occlusion the animals were randomised to one of five groups: reperfusion at 30, 45, 60, or 90 min after occlusion (groups 1-4) or permanent occlusion (group 5). Twenty four hours after coronary occlusion the pigs were killed. The heart was sectioned in slices, which were incubated in triphenyl-tetrazolium. Mean(SEM) infarct sizes calculated by planimetry were 0.46(0.42), 2.85(1.14), 9.74(1.65), 8.93(1.37), and 13.17(1.17)% of left ventricular mass in the five groups. The transmural extension of the infarct was 14.6(11.4), 42.1(12.9), 87.4(6.6), 96.2(3.2), and 100(0)% and a transmurality index used as an estimate of the mean extension of the infarct relative to wall thickness was calculated to be 0.08(0.06), 0.32(0.10), 0.72(0.06), 0.79(0.04), and 0.92(0.02) respectively. Infarct size was similar in groups 3-5, but significantly smaller in groups 1 and 2 (p less than 0.05). Infarct size and the transmurality index correlated exponentially with the duration of the occlusion (r = 0.80, p less than 0.01; and r = 0.95, p less than 0.001 respectively). These results indicate that in the pig heart model submitted to an acute coronary occlusion cell viability may be less than that suggested by previous canine studies. This observation is probably related to a less well developed collateral blood flow in the pig heart and may provide an experimental model that better resembles certain clinical conditions.
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