Lipid-Soluble Antioxidants: Biochemistry and Clinical ApplicationsAntioxidants inhibit the formation and spread of free radicals which can be damaging in biological systems. Free radicals form in biological systems through metabolism, but it is also realized that exogenous environmental sources, such as radiation, food, and drugs, contribute significantly to the generation of free radicals in biological systems. Being reactive species, free radicals are short-lived and do not travel far from cellular targets. Their concentration in biological systems is very low and is difficult to detect directly by electron spin resonance spectroscopy (ESR). Indirect methods of reactions of radicals with specific biomolecules are also sufficiently sensitive to detect quantitatively their presence. Thus the response of antioxidant defenses which react with radical species, can serve as an indirect measure that free radicals have been formed. Redox-based antioxidants change their oxidation state and antioxidants become free radicals themselves. Often, however, the antioxidants give rise to more persistent free radicals, sometimes owing to delocalization of the lone electron around ring structures (in vitamin E, ubiquinones, and certain carotenes). Persistent free radicals react only rarely and the precursors often can be regenerated in biological systems. In recent years, it is becoming clearer from biochemical studies on how the major lipophilic antioxidants work. Particular attention has been given to vitamin E and quinones found in animal and plant membranes and in carotenoids, for the protection of membranes in lipoprotein systems. Flavonoids form another rich and varied source of natural antioxidants. |
Contents
| 17 | |
Synergistic effect of lipid hydroperoxyl radical scavenging and lipid | 47 |
Vitamin E in protection of oxidative impairment in endothelial and platelet | 65 |
Effect of vitamin E on metabolism of uremic low density lipoproteins | 85 |
VI | 92 |
Role | 123 |
A nonhuman primate model | 134 |
VIII | 144 |
Role of retinoids in modulating the molecular actions of environmental | 330 |
PARASITIC AND INFECTIOUS DISEASES | 337 |
N H Hunt M Kopp and R Stocker | 355 |
The mechanism of antimalarial action of artemisinin Qinghaosu | 363 |
Erythrocytic GSH level and stability in Plasmodium vivax malaria | 373 |
Plasma lipid peroxidation in P falciparum malaria | 397 |
Presence formation and function of ubiquinones Q6 and Q8 in filarial | 406 |
Catalase activity in red cell and liver of mice infected with Plasmodium | 416 |
Antitumor and antioxidant activity of tocotrienols | 152 |
Tocopherols carotenoids and the glutathione system | 160 |
Nutrition of tocotrienols and lipid metabolism | 166 |
CAROTENOIDS FLAVONOIDS AND RETINOIDS | 178 |
J A Olson | 188 |
Role of Bcarotene in disease prevention with special reference to cancer | 208 |
Antitumor and antitumor promoting activity of a and Bcarotene | 228 |
Production of palm oil carotenoid concentrate and its potential application | 243 |
Carotenoids novel polyene polyketones and new capsorubin isomers | 255 |
Modification of alloxan diabetes in rats by vitamin A status | 265 |
Their significance for nutrition and health | 274 |
Studies on flavonoids and related compounds as antioxidants in food | 295 |
Autocoidimmunopharmacology of flavonoids | 307 |
S S Gambhir B L Pandey K S Devi R S Banerjee and G Dasgupta | 320 |
Epidemiological correlations between poor plasma levels of essential | 442 |
K F | 455 |
Lipidsoluble plant phenols as antioxidants and antimutagens | 469 |
Anticancer effects of cisunsaturated fatty acids both in vitro | 482 |
Clinical studies on polyunsaturated fatty acids and antioxidants in African | 507 |
Effect of japanese herbal medicine Shosaikotogokeishikashakuyakuto | 535 |
Lipoprotein oxidation | 553 |
Hepatic lipid peroxidation in ethanol potentiated aflatoxin B₁ hepatotoxicity | 567 |
Fat soluble antioxidant vitamins in cancer patients | 582 |
Butylated hydroxytoluene toxicity | 590 |
Effects of tocotrienolsrich vitamin E on patients with peripheral vascular | 606 |
Protection from air pollution injury by dietary vitamin E | 622 |
| 632 | |
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Lipid-Soluble Antioxidants: Biochemistry and Clinical Applications ONG,PACKER No preview available - 2012 |
Common terms and phrases
1992 Birkhäuser Verlag a-Toc a-tocopherol activity AFB₁ alloxan animals antioxidants Applications A.S.H. Ong artemisinin ascorbate B-carotene Basel/Switzerland benzo(a)pyrene Biochem Biochemistry and Clinical Biol biological Biophys blood cancer carcinogens carotene carotenoids catalase Chem cholesterol Clin Clinical Applications A.S.H. compounds concentration decreased deficient diet dietary disease effect ellagic acid enzyme erythrocytes ethanol fatty acids flavone flavonoids free radicals glutathione GSH level human increased incubation induced infection inhibition inhibitors intake lipid peroxidation Lipid-Soluble Antioxidants lipoprotein liver lung lycopene malaria marmosets mechanism membrane metabolism mice microsomal mutagenicity normal Nutr nutritional observed oxidative stress Packer eds palm oil parasitaemia parasite patients peroxyl radicals Pharmacol plasma polyphenols PRBC production protective protein quercetin rats reaction reactive red cells reduced retinoids retinol role scavenging serum shown significantly studies superoxide supplementation Table tissue Toc3 tocotrienols tumor vitamin vitamin E vitro vivo µg/ml