Asare, G. A.Kew, M.C.Mossanda, K.S.Paterson, A.C.Siziba, K.Kahler-Venter, C.P.2013-01-022017-10-162013-01-022017-10-162009J Clin Biochem Nutr. 44(1):85-94.http://197.255.68.203/handle/123456789/2269In dietary iron overload, excess hepatic iron promotes liver damage. The aim was to attenuate free radical-induced liver damage using vitamins. Four groups of 60 Wistar rats were studied: group 1 (control) was fed normal diet, group 2 (Fe) 2.5% pentacarbonyl iron (CI) followed by 0.5% Ferrocene, group 3 (Fe + V gp) CI, Ferrocene, plus vitamins A and E (42x and 10x RDA, respectively), group 4 (Fe - V gp) CI, Ferrocene diet, minus vitamins A and E. At 20 months, glutathione peroxidase (GPx), superoxide dismutase (SOD), Oxygen Radical Absorbance Capacity (ORAC), Ames mutagenicity test, AST, ALT and 4-hydroxynonenal (4-HNE) immunohistochemistry were measured. 8OHdG levels of the Fe + V and Fe - V groups were 346 +/- 117 and 455 +/- 151, ng/g w.wt, respectively. Fe + V and Fe - V differences were significant (p<0.005). A positive correlation between DNA damage and mutagenesis existed (p<0.005) within the iron-fed gps. AST levels for Fe + V and Fe - V groups were 134.6 +/- 48.6 IU and 202.2 +/- 50.5 IU, respectively. Similarly, ALT levels were 234.6 +/- 48.3 IU and 329.0 +/- 48.6 IU, respectively. However, Fe - V and Fe + V groups transaminases were statistically insignificant. 4-HNE was detected in Fe + V and Fe - V gp livers. Vitamins A and E could not prevent hepatic damage.enIron overloadantioxidantshepatocellular carcinomaEffects of exogenous antioxidants on dietary iron overload.Article