Ácidos fenólicos como antioxidantes

ALLEN, J.C., HAMILTON, R.J. Rancidity in foods. London : Applied Science, 1983. 199p.

ARUOMA, O.I. Free radicals and food. Chemistry in Britain, London, v.29, n.3, p.210-214, 1993.

AZIZ, N.H., FARAG, S.E., MOUSA, L.A., ABO-ZAID, M.A. Comparative antibacterial and antifungal effects of some phenolic compounds. Microbios, Cambridge, v.93, n.374, p.43-54, 1998.

BOURNE, L.C., RICE-EVANS, C.A. The effect of the phenolic antioxidant ferulic acid on the oxidation of low density lipoprotein depends on the pro-oxidant used. Free Radical Research, Chur, v.27, n.3, p.337-344, 1997.

BRAVO, L. Polyphenols: chemistry, dietary sources, metabolism and nutrition significance. Nutrition Reviews, New York, v.56, n.11, p.317-333, 1998.

CARBONNEAU, M.A., LÉGER, C.L., MONNIER, L., BONNET, C., MICHEL, F., FOURET, G., DEDIEU, F., DESCOMPS, B. Supplementation with wine phenolic compounds increases the antioxidant capacity of plasma and vitamin E of low-density lipoprotein without changing the lipoprotein Cu2+oxidizability: possible explanation by phenolic location. European Journal of Clinical Nutrition, London, v.51, n.10, p.682-690, 1997.

CINTRA, R.M.G., MANCINI FILHO, J. Antioxidant activity of spices in different systems. In: BIENNIEAL MEETING INTERNATIONAL SOCIETY FOR FREE RADICAL RESEARCH, 8., 1996, Barcelona. Abstract Book. Barcelona : ISFRR, 1996. p.90.

COSGROVE, J.P., CHURCH, D.F., PRYOR, W.A. The kinetics of autoxidation of polyunsaturated fatty acids. Lipids, Champaign, v.22, n.5, p.299-304, 1987.

CROFT, K.D. The chemistry and biological effects of flavonoids and phenolic acids. Annals of the New York Academy of Science, New York, v.854, p.435-442, 1998.

DONNELLY, J.K., ROBINSON, D.S. Invited review. Free radical in foods. Free Radical Research, Yverdon, v.22, n.2, p.147-176, 1995.

DURÁN, R.M., PADILLA, B. Actividad antioxidante de los compuestos fenólicos. Grasas y Aceites, Sevilla, v.44, n.2, p.101-106, 1993.

DZIEDZIC, S.Z., HUDSON, B.J.F. Phenolic acids and related compounds as antioxidants for edible oils. Food Chemistry, Oxford, v.14, p.45-51, 1984.

ERENEL, G., ERBAS, D., ARICIOGLU, A. Free radicals and antioxidant systems. Materia Medica Polona, Warsaw, v.1, n.85, p.37-43, 1993.

FERGUSON, L.R., HARRIS, P.J. Protection against cancer by wheat bran: role of dietary fibre and phytochemicals. European Journal of Cancer Prevention, Oxford, v.8, n.1, p.17-25, 1999.

FERNANDEZ, M.A., SAENZ, M.T., GARCIA, M.D. Antiinflamatory activity in rats and mice of phenolic acids isolated from Scrophularia frutescens. Journal of Pharmacy and Pharmacology, London, v.50, n.10, p.1183-1186, 1998.

FRANKEL, E.N. Lipid oxidation. Progress in Lipid Research, Oxford, v.19, n.1-2, p.1-22, 1980.

GAMACHE, P., RYAN, E., ACWORTH, I.N. Analysis of phenolic and flavonoid compounds in juice beverages using high-performance liquid chromatography with coulometric array detection. Journal of Chromatography, Amsterdam, v.635, n.1, p.143-150, 1993.

HALLIWELL, B., MURCIA, M.A., CHIRICO, S., ARUOMA, O.I. Free radicals and antioxidants in food and in vivo: what they do and how they work. Critical Reviews in Food Science and Nutrition, Cleveland, v.35, n.1/2, p.7-20, 1995.

HO, C.T. Phenolic compounds in food-an overview. In: HO, C.T., LEE, C.Y., HUANG, M.T. Phenolic compounds in food and their effects on health. Washington : American Chemical Society, 1992. p.2-7. (ACS Symposium Series, n.506).

HO, C.T., FERRARO, T., CHEN, Q., ROSEN, R.T., HUANG, T.M. Phytochemicals in teas and rosemary and their cancer-preventive properties. In: HO, C.T., OSAWA, T., HUANG, T.M., ROSEN, R.T. Food phytochemicals for cancer prevention. Washington : American Chemical Society, 1994. p.2-19. (ACS Symposium Series, n.547).

HOLLMAN, P.C., KATAN, M.B. Bioavailability and health effects of dietary flavonoids in man. Archives of Toxicology Supplement, Berlin, v.20, p.237-248, 1998.

HSIEH, R.J., KINSELLA, J.E. Oxidation of polyunsaturated fatty acids: mechanisms, products, and inhibition with emphasis on fish. Advances in Food and Nutrition Research, San Diego, v.33, p.233-341, 1989.

HUANG, M.T., FERRARO,T. Cancer chemoprevention by phytochemicals in fruits and vegetables: an overview. In: HO, C.T., OSAWA, T., HUANG, T.M., ROSEN, R.T. Food phytochemicals for cancer prevention. Washington : American Chemical Society, 1994. p.2-16. (ACS Symposium Series, n.546).

IVANOVA, A., MILKOVA, T., GALABOV, A.S., NIKOLAEVA, L., VOYNOVA, E. Transformation of cholanic acid derivatives into pharmacologically active esters of phenolic acids by heterogeneous Wittig reaction. Zeitschrift fuer Naturforschung, Tuebingen, v.52, n.7-8, p.516-521, 1997.

KERRY, N.L., ABBEY, M. Red wine and fractionated phenolic compounds prepared from red wine inhibit low density lipoprotein oxidation in vitro. Atherosclerosis, Limerick, v.135, n.1, p.93-102, 1997.

KIMURA, Y., OKUDA, H., OKUDA, T., HATANO, T., AGATA, I., ARICHI, S. Studies on the activities of tannins and related compounds. V. Inhibitory effects on lipid peroxidation in mitochondria and microsomes of liver. Planta Medica, Stuttgart, v.50, n.6, p.473-477, 1984.

KING, A., YOUNG, G. Characteristics and occurrence of phenolic phytochemicals. Journal of the American Dietetic Association, Chicago, v.99, n.2, p.213-218, 1999.

KUBOW, S. Lipid oxidation products in food and atherogenesis. Nutrition Reviews, New York, v.51, n.2, p.33-40, 1993.

LARANJINHA, J.A.N., ALMEIDA, L.M., MADEIRA, V.M.C. Reactivity of dietary phenolic acids with peroxyl radicals: antioxidant activity upon LDL oxidation. Biochemical Pharmacology, London, v.48, n.3, p.487-492, 1994.

LARANJINHA, J.A.N., VIEIRA, O., ALMEIDA, L.M., MADEIRA, V.M.C. Inhibition of metmyoglobin/H2O2 dependent LDL lipid peroxidation by naturally occuring phenolic acids. Biochemical Pharmacology, London, v.51, n.4, p.395-402, 1996.

MACHLIN, L.J., BENDICH, A. Free radical tissue damage: protective role of antioxidant nutrients. FASEB Journal, Bethesda, v.1, n.6, p.441-445, 1987.

MARINOVA, E.M., YANISHLIEVA, N.V. Inhibited oxidation of lipids II: Comparison of the antioxidative properties of some hydroxy derivatives of benzoic and cinnamic acids. Fett-Wissenschaft Technologie, Leinfeldem-Echterdingen, v.94, n.11, p.428-432, 1992.

NAGEN, T.J., ALBUQUERQUE, T.T.O., MIRANDA, L.C.G. Ácidos fenólicos em cultivares de soja: ação antioxidante. Arquivos de Biologia e Tecnologia, Curitiba, v.35, n.1, p.129-138, 1992.

NAKATANI, N. Natural antioxidants from spices. In: HO, C.T., LEE, C.Y., HUANG, M.T. Phenolic compounds in food and their effects on health. Washington : American Chemical Society, 1992. p.72-86. (ACS Symposium Series, n.507).

NAMIKI, M. Antioxidants/antimutagens in food. Journal of Nutrition, Boca Raton, v.29, n.4, p.273-300, 1990.

NARDINI, M., D’AQUINO, M., TOMASSI, G., GENTILI, V., Di FELICE, M., SCACCINI, C. Inhibition of human low-density lipoprotein oxidation by caffeic acid and other hydroxycinnamic acid derivatives. Free Radical Biology and Medicine, New York, v.19, n.5, p.541-552, 1995.

NARDINI, M., NATELLA, F., GENTILI, V., Di FELICE, M., SCACCINI, C. Effect of caffeic acid dietery supplementation on the antioxidant defense system in rat: an in vivo study. Archives of Biochemistry and Biophysic, San Diego, v.342, n.1, p.157-160, 1997.

NARDINI, M., PISU, P., GENTILI, V., NATELLA, F., Di FELICE, M., PICCOLELLA, E., SCACCINI, C. Effect of caffeic acid on tert-butyl hydroperoxide-induced oxidative stress in U937. Free Radical Biology and Medicine, New York, v.25, n.9, p.1098-1105, 1998.

NAWAR, W.W. Lipids. In: FENNEMA, O.R. (Ed.). Food Chemistry. 2.ed. New York : Marcel Dekker, 1985. p.139-244.

OHNISHI, M., MORISHITA, H., IWAHASHI, H., TODA, S., SHIRATAKI, Y., KIMURA, M., KIDO, R. Inhibitory effects of chlorogenic acids on linoleic acid peroxidation and hemolysis. Phytochemistry, Oxford, v.36, n.3, p.579-583, 1994.

ONYENEHO, S.N., HETTIARACHCHY, N.S. Antioxidant activity of durum wheat bran. Journal of Agriculture Food Chemistry, Washington, v.40, p.1496-1500, 1992.

ONYENEHO, S.N., HETTIARACHCHY, N.S. Antioxidant activity, fatty acids and phenolic acids compositions of potato peels. Journal Science Food Agriculture, London, v.62, p.345-350, 1993.

PAPADOPOULOS, G., BOSKOU, D. Antioxidant effect of natural phenols on olive oil. Journal American Oil Chemists’ Society, Champaign, v.68, n.9, p.669-671, 1991.

PELEG, H., BODINE, K.K., NOBLE, A.C. The influence of acid on adstringency of alum and phenolic compounds. Chemical Senses, Oxford, v.23, n.3, p.371-378, 1998.

PRATT, D.E. Natural antioxidants from plant material. In: HO, C.T., LEE, C.Y., HUANG, M.T. Phenolic compounds in food and their effects on health. Washington : American Chemical Society, 1992. p.54-71. (ACS Symposium Series, n.507).

PRATT, D.E., BIRAC, P.M. Source of antioxidant activity of soybean and soy products. Journal Food Science, Chicago, v.44, p.1720-1722, 1979.

PULLA REDDY, A.C., LOKESH, B.R. Studies on spice principles as antioxidants in the inhibition of lipid peroxidation of rat liver microsomes. Molecular and Cellular Biochemistry, Norwell, v.111, n.1/2, p.117-124, 1992.

RIBÉREAU-GAYON, P. Les Composés Phénoliques des Végétaux. Paris : Dunod, 1968. 254p.

RICE-EVANS, C., BURDON, R. Free radical-lipid interactions and their pathological consequences. Progress in Lipid Research, Oxford, v.32, n.1, p.71-110, 1993.

RODRIGUEZ DE SOTILLO, D., HADLEY, M., HOLM, E.T. Potato peel waste: stability and antioxidant activity of a freeze-dried extract. Journal Food Science, Chicago, v.59, n.5, p.1031-1033, 1994.

SHAHIDI, F., JANITHA, P.K., WANASUNDARA, P.D. Phenolic antioxidants. CRC Critical Reviews in Food Science and Nutrition, Boca Raton, v.32, n.1, p.67-103, 1992.

SIMIC, M.G., JAVANOVIC, S.V. Inactivation of oxygen radicals by dietary phenolic compounds in anticarcinogenesis. In: HO, C.T., OSAWA, T.,

HUANG, T.M., ROSEN, R.T. (Ed.). Food phytochemicals for cancer prevention. Washington : American Chemical Society, 1994. p.20-33. (ACS Symposium Series, n.546).

STEINBERG, D., PARTHASARATHY, S., CAREW, T.E., KHOO, J.C., WITZTUM, J.L. Beyond cholesterol: modification of low-density lipoprotein that increase its atherogenicity. New England Journal of Medicine, Boston, v.320, n.14, p.915-924, 1989.

STEINBRECHER, U.P., ZHANG, H., LOUGHEED, M. Role of oxidatively modified LDL in atherosclerosis. Free Radical Biology and Medicine, New York, v.9, n.2, p.155-168, 1990.

VIEIRA, O., LARANJINHA, J., MADEIRA, V., ALMEIDA, L. Cholesteryl ester hydroperoxide formation in myoglobin-catalyzed low density lipoprotein oxidation: concerted antioxidant activity of caffeic and p-coumaric acids with ascorbate. Biochemical Pharmacology, London, v.55, n.3, p.333-340, 1998.

VINSON, J.A., DABBAGH, Y.A., SERRY, M.M., JANG, J. Plant flavonoids, especially tea flavonols, are powerful antioxidants using an in vitro oxidation model for heart disease. Journal Agriculture and Food Chemistry, Washington DC, v.43, p.2800-2802, 1995.

VINSON, J.A., DABBAGH, Y.A. Tea phenols: antioxidant effectiveness of teas, tea components, tea fractions and their binding with lipoproteins. Nutrition Research, Elmsford, v.18, n.6, p.1067-1075, 1998.

VISIOLI, F., GALLI, C. The effect of minor constituents of olive oil on cardiovascular disease: new findings. Nutrition Reviews, New York, v.56, n.5, p.142-147, 1998.

Von GADOW, A., JOUBERT, E., HANSMANN, C.F. Comparison of the antioxidant activity of aspalathin with that of other plant phenols of rooibos tea (Aspalathus linearis), a-tocopherol, BHT and BHA. Journal Agriculture and Food Chemistry, Washington DC, v.45, p.632-638, 1997.

WILLIAMSON, G., FAULKNER, K., PLUMB, G.W. Glucosinolates and phenolics as antioxidants from plant foods. European Journal of Cancer Prevention, Oxford, v.7, n.1, p.17-21, 1998.

WÜRTZEN, G. Shortcomings of current strategy for toxicity testing of food chemicals: antioxidants. Food Chemistry and Toxicology, Oxford, v.28, n.11, p.743-745, 1990.

YANISHLIEVA, N.V., MARINOVA, E.M. Effects of antioxidants on the stability of triacylglycerols and methyl esters of fatty acids of sunflower oil. Food Chemistry, Oxford, v.54, n.4, p.377-382, 1995.