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  • Title: Ethanol, not fat accumulation per se, increases free radical production in a low-flow, reflow liver perfusion model.
    Author: Zhong Z, Connor HD, Mason RP, Lemasters JJ, Thurman RG.
    Journal: Transplantation; 1998 Dec 15; 66(11):1431-8. PubMed ID: 9869083.
    Abstract:
    BACKGROUND: Ethanol increases primary graft failure after liver transplantation, yet whether it acts via mechanisms involving fat accumulation remains unclear. METHODS: Rats were pair-fed a modified Lieber-DeCarli liquid diet containing 35% (high-fat) or 12% (low-fat) of calories as fat combined with 36% of calories as ethanol or isocaloric maltose-dextrin for 4-5 weeks. Reperfusion injury to the liver was studied using a low-flow, reflow perfusion model and a liver transplantation model, and free radicals were detected using electron spin resonance and the spin trapping technique. RESULTS: As expected, basal hepatic triglycerides were similar in livers from rats fed low- and high-fat control diets. Ethanol did not alter triglyceride levels significantly in rats fed a low-fat diet, but increased values about 2.4-fold in rats fed a high-fat diet. Ethanol increased lactate dehydrogenase release during reperfusion from 10 to 26 IU/g/h in rats fed a low-fat diet and from 17 to 34 IU/g/h in rats fed a high-fat diet, respectively. Portal pressure increased from about 3 to 10.5 cm H2O upon reperfusion in livers from high-fat, ethanol-fed rats, but only reached values of 9.1 in the low-fat, ethanol-fed group. A free radical adduct signal was detected in the bile of livers from ethanol-treated rats, and the magnitude of this signal was similar in livers of ethanol-treated rats fed high- or low-fat diets. However, radical adducts could not be detected in either group in the absence of dietary ethanol. Moreover, 67-77% rats given low-fat or high-fat control diets survived after liver transplantation, but only 11% survived if treated with ethanol. CONCLUSIONS: It is concluded that ethanol plays a major role in hepatic reperfusion injury, most likely via mechanisms involving free radicals. Increased hepatic fat content alone plays only a minor role, probably by causing slight disturbances in the hepatic microcirculation.
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