Dennis H. Irving scite author profile

Dennis H. Irving

2Publications

26Citation Statements Received

12Citation Statements Given

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University of California, Davis

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Effects of dietary antioxidants on in vivo lipid peroxidation in the rat as measured by pentane production

Downey

Irving

Tappel

1978

Lipids

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The hypothesis that pentane is an in vivo product of lipid peroxidation was confirmed by a study of the effects of a nonbiological antioxidant on pentane production in rats fed a diet deficient in vitamin E and supplemented with 0.0/% N,N'-diphenyl-p-phenylenediamine (DPPD). Seven rats were fed a vitamin E-deficient diet starting at 3 wk of age. After 5 wk, 0.01% DPPD was added to the diets of three rats (group DPPD) while the diet of the other four rats remained unchanged (group OE). Within 2 wk of the diet change, rats in group DPPD exhaled 65% less pentane than rats of the same age in group OE. After 5 wk of being fed the DPPD-supplemented diet, rats in group DPPD were again fed the basal vitamin E-deficient diet; within 3 wk, these rats produced pentane levels similar to those of rats in group OE. The effects of vitamin E depletion and repletion on in vivo lipid peroxidation in rats were also studied. Three groups of three rats each were initially led a vitamin E-deficient diet starting at 3 wk of age. After 8, 8, and 5 wk of being fed this diet, the three groups were led diets supplemented with 3.3 (group 0--~3.3E), 11 (group 0--,11E), and 200 (group 200E) i.u. vitamin E acetate]kg diet, respectively. Another group of three rats (group 11 E) was fed a diet supplemented with 11 i.u. vitamin E/kg starting at 3 wk of age for the duration of the study. There were significant decreases in pentane production by rat groups 0-*3.3E, 0-*11E, and 200E within 2 wk of the change to the vitamin E-supplemented diets. After about 5 wk of being fed their respective vitamin E-supplemented diets, pentane breath levels had stabilized. Breath pentane levels were inversely proportional to the log of dietary vitamin E concentration.

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Lipid peroxidation: A mechanism involved in acute ethanol toxicity as demonstrated by in vivo pentane production in the rat

Litov

Irving

Downey

et al. 1978

Lipids

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The effect of a single dose of ethanol on lipid peroxidation in three groups of rats fed different amounts of vitamin E was determined by the measurement of pentane in the breath. All rats had increased pentane production above basal levels by 15 min following oral administration of 6 g ethanol/kg body wt. The increase in total pentane production during a 13-hr test period after intragastric administration of ethanol was greater in the rats fed the vitamin E-deficient diet than in the rats fed vitamin E-supplemented diets (alpha = 2P = 0.02). The results support the hypothesis that acute ethanol toxicity involves lipid peroxidation and further demonstrate the usefulness in toxicological studies of monitoring pentane as an index of lipid peroxidation in vivo.

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Dennis H. Irving

Effects of dietary antioxidants on in vivo lipid peroxidation in the rat as measured by pentane production

Lipid peroxidation: A mechanism involved in acute ethanol toxicity as demonstrated by in vivo pentane production in the rat

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