Free Radicals in Reperfusion Injury After Acute Aortic Occlusion

Abstract

This investigation aims to evaluate the role of free radicals and the influence of radical scavengers in reperfusion injury of the skeletal muscle in male Wistar rats. Various parameters, including tissue blood flow, serum and calf muscle tissue levels of thiobarbituric acid (TBA) reactants, and the water content of calf muscles, were measured in the experimental setting, where infrarenal abdominal aorta was occluded for two hours followed by reperfusion with and without intraperitoneal administration of radical scavengers (superoxide dismutase or catalase). The rats were divided into four groups: group A: single laparotomy; group B: two-hour occlusion; group C: two-hour occlusion with superoxide dismutase; group D: two-hour occlusion with catalase. The increases in both serum and calf muscle tissue levels of TBA reactants following reperfusion were diminished in groups C and D as compared with those in group B. The water content of calf muscles showed a significant increase after reperfusion in group B, whereas it did not change in group D. The calf muscle tissue blood flow after reperfusion was significantly lower in group C than that in group B. These results indicate that oxygen-derived free radicals may be responsible for reperfusion injury in the lower extremity and that the attenuated blood flow during reperfusion produced by these scavengers seems to play an important role in reducing lipid peroxidation . In a clinical setting, limiting the rate of reperfusion blood flow may reduce the reperfusion injury in skeletal muscle.