Hostname: page-component-8448b6f56d-c47g7 Total loading time: 0 Render date: 2024-04-23T06:47:40.862Z Has data issue: false hasContentIssue false
  • English
  • Français

Free radicals, exercise and antioxidant supplementation

Published online by Cambridge University Press:  28 February 2007

Mitchell Kanter
Mitchell Kanter*
Affiliation:
The Quaker Oats Company, 617W Main Street, Barrington, Illinois 60010, USA
*
Corresponding author: Dr M. Kanter, fax + 1 847 304 2029, email mitch@gssiweb.com
Rights & Permissions [Opens in a new window]

Abstract

An abstract is not available for this content so a preview has been provided. As you have access to this content, a full PDF is available via the ‘Save PDF’ action button.
Image of the first page of this content. For PDF version, please use the ‘Save PDF’ preceeding this image.'
Type
Meeting Report
Information
Proceedings of the Nutrition Society , Volume 57 , Issue 1 , February 1998 , pp. 9 - 13
Copyright
Copyright © The Nutrition Society 1998

References

Alessio, HM & Goldfarb, AH (1988) Lipid peroxidation and scavenger enzymes during exercise: adaptive response to training. Journal of Applied Physiology 64, 13331336.CrossRefGoogle ScholarPubMed
Arouma, OI (1994) Free radicals and antioxidant strategies in sports. Journal of Nutritional Biochemistry 5, 370381.CrossRefGoogle Scholar
Bjorneboe, A, Bjorneboe, G & Drevon, CA (1990) Absorption, transport and distribution of vitamin E. Journal of Nutrition 120, 233242.CrossRefGoogle ScholarPubMed
Cannon, JG, Orencole, SF, Fielding, RA, Meydani, M, Meydani, SN, Fiaterone, MA, Blumberg, JB & Evans, WJ (1990) Acute phase response to exercise: interaction of age and vitamin E on neutrophils and muscle enzyme release. American Journal of Physiology 259, R1214R1219.Google Scholar
Davies, KJA, Quintanilha, AT, Brooks, GA & Packer, L (1982) Free radicals and tissue damage produced by exercise. Biochemical and Biophysical Research Communications 107, 11981205.CrossRefGoogle ScholarPubMed
Dernbach, AR, Sherman, WM, Simonsen, JC, Flowers, KM & Lamb, DR (1993) No evidence of oxidant stress during high-intensity rowing training. Journal of Applied Physiology 74, 21402145.Google Scholar
Dillard, CJ, Dumelin, EE & Tappel, AL (1976) Effect of dietary vitamin E on expiration of pentane and ethane by the rat. Lipids 12, 109114.CrossRefGoogle Scholar
Dillard, CJ, Litov, RE, Savin, RE, Dumelin, EE & Tappel, AL (1978) Effects of exercise, vitamin E, and ozone on pulmonary function and lipid peroxidation. Journal of Applied Physiology 45, 927932.CrossRefGoogle ScholarPubMed
Girten, B, Oloff, C, Plato, P, Eveland, E, Merola, AJ & Kazarian, L (1989) Skeletal muscle antioxidant enzyme levels in rats after simulated weightlessness, exercise and dobutamine. The Physiologist 32, S59S60.Google ScholarPubMed
Gohil, K, Packer, L, De Lumen, B, Brooks, GA & Terblanche, SE (1986) Vitamin E deficiency and vitamin C supplements: exercise and mitochondria1 oxidation. Journal of Applied Physiology 60, 19861991.CrossRefGoogle Scholar
Goldfarb, AH & Sen, CK (1994) Antioxidant supplementation and the control of oxygen toxicity during exercise. In Exercise and Oxygen Toxicity, pp. 163189 [Sen, CK, Packer, L and Hanninen, O, editors]. Amsterdam: Elsevier.Google Scholar
Halliwell, B (1987) Oxidants and human disease: some new concepts. FASEB Journal 1, 358364.Google Scholar
Halliwell, B & Chirico, S (1993) Lipid peroxidation: its mechanism, measurement and significance. American Journal of Clinical Nutrition 57, Suppl., 715S725S.CrossRefGoogle ScholarPubMed
Halliwell, B & Gutteridge, JMC (1985) Free Radicals in Biology and Medicine, pp. 162–164. Oxford: Clarendon Press.Google Scholar
Hamaren, J, Powers, S, Lawler, J, Criswell, D, Lowenthal, D & Pollack, M (1993) Exercise training-induced alterations in skeletal muscle oxidative and antioxidant enzyme activity. International Journal of Sports Medicine 13, 412416.CrossRefGoogle Scholar
Hamvas, A, Palazzo, R, Kaiser, L, Cooper, J, Shuman, T, Valazquez, M, Freeman, B & Schuster, DP (1992) Inflammation and oxygen free radical formation during pulmonary ischemia-reperfusion injury. Journal of Applied Physiology 72, 621628.Google Scholar
Hartmann, A, Nies, AM, Grunert-Fuchs, M, Poch, B & Speit, G (1995) Vitamin E prevents exercise-induced DNA damage. Mutation Research 346, 195202.Google ScholarPubMed
Helgheim, I, Hetland, O, Nilsson, S, Ingier, F & Stromme, SB (1979) The effects of vitamin E on serum enzyme levels following heavy exercise. Europeun Journal of Applied Physiology 40, 283289.CrossRefGoogle ScholarPubMed
Higuchi, M, Cartier, LJ, Chen, M & Holloszy, JO (1985) Superoxide dismutase and catalase in skeletal muscle: adaptive response to exercise. Journal of Gerontology 40, 281286.Google Scholar
Hodgson, JM, Croft, KD, Puddey, IB, Mori, TA & Beilin, LJ (1996) Soybean isoflavonoids and their metabolic products inhibit in vitro lipoprotein oxidation in serum. Journal of Nutritional Biochemistry 7, 664669.CrossRefGoogle Scholar
Jakeman, P & Maxwell, S (1993) Effect of antioxidant vitamin supplementation on muscle function after eccentric exercise. European Journal of Applied Physiology 67, 426430.CrossRefGoogle ScholarPubMed
Jenkins, RR (1993) Exercise, oxidative stress, and antioxidants: a review. International Journal of Sports Nutrition 3, 356375.Google Scholar
Jenkins, RR, Friedland, R & Howald, H (1982) The adaptation of the hydroperoxide enzyme system to increased oxygen use. Medicine and Science in Sports and Exercise 14, 148.CrossRefGoogle Scholar
Ji, LL, Stratman, FW & Lardy, HA (1988) Antioxidant enzyme systems in rat liver and skeletal muscle: Influences of selenium deficiency, chronic training, and acute exercise. Archives of Biochemistry and Biophysics 263, 150160.CrossRefGoogle ScholarPubMed
Kaminski, M & Boals, R (1992) An effect of ascorbic acid on delayed-onset muscle soreness. Pain 50, 317321.Google Scholar
Kanter, MM, Bartoli, WP, Eddy, DE & Horn, MK (1997) Effects of short term vitamin E supplementation on lipid peroxidation, inflammation and tissue damage during and following exercise. Medicine and Science in Sports and Exercise 29, S40.Google Scholar
Kanter, MM & Eddy, DE (1992) Effect of antioxidant supplementation on serum markers of lipid peroxidation and skeletal muscle damage following eccentric exercise. Medicine and Science in Sports and Exercise 24, S17.Google Scholar
Kanter, MM, Hamlin, RL, Unverferth, DV, Davis, HW & Merola, AJ (1985) Effect of exercise training on antioxidant enzymes and cardiotoxicity of doxorubicin. Journal of Applied Physiology 59, 12981303.Google Scholar
Kanter, MM, Nolte, LA & Holloszy, JO (1993) Effects of an antioxidant vitamin mixture on lipid peroxidation at rest and postexercise. Journal of Applied Physiology 74, 965969.Google Scholar
Kumar, CT, Reddy, VK, Prasad, M, Thyagaraju, K & Reddanna, P (1992) Dietary supplementation of vitamin E protects heart tissue from exercise-induced oxidant stress. Molecular and Cellular Biochemistry 111, 109115.CrossRefGoogle ScholarPubMed
Kuroda, Y (1996) Bio-antimutagenic activity of green tea catechins in cultured Chinese hamster V79 cells. Mutation Research and Environmental Mutagen Related Subjects 361, 179186.CrossRefGoogle ScholarPubMed
Mccord, JM (1979) Superoxide, superoxide dismutase and oxygen toxicity. Reviews of Biochemical Toxicology 1, 109121.Google Scholar
Meydani, M, Evans, WJ, Handelman, G, Biddle, L, Fielding, RA, Meydani, SN, Burrill, J, Fiaterone, MA, Blumberg, JB & Cannon, JG (1993) Protective effect of vitamin E on exercise-induced oxidative damage in young and older adults. American Journal of Physiology 264, R992R996.Google Scholar
Namiki, M (1990) Antioxidants/antimutagens in food. Critical Reviews in Food Science and Nutrition 29, 273300.Google Scholar
Nieman, DC, Nehlsen-cannarella, SL, Henson, DA, Butterworth, DE, Fagoaga, OR, Warren, BJ & Rainwater, MK (1997) Carbohydrate, ascorbic acid, and the immune response to running. International Journal of Sports Medicine (In the Press).Google ScholarPubMed
Niki, E, Kawakami, A, Saito, M, Yamamoto, Y, Tsuchiya, T & Kamiya, Y (1985) Effect of phytyl side chain of vitamin E on its antioxidant activity. Journal of Biological Chemistry 260, 21912196.CrossRefGoogle ScholarPubMed
Ohno, H, Sato, Y, Yamashita, K, Doi, R, Arai, K, Kondo, T & Taniguchi, N (1986) The effect of brief physical exercise on free radical scavenging enzyme systems in human red blood cells. Canadian Journal of Physiological Pharmacology 64, 12631265.Google Scholar
Packer, L (1984) Vitamin E, physical exercise, and tissue damage in animals. Medical Biology Helsinki 62, 105109.Google Scholar
Patterson, BH, Block, G, Rosenberger, WF, Pee, D & Kahle, LL (1990) Fruit and vegetables in the American diet: data from the NHANES II survey. American Journal of Public Health 80, 14431449.CrossRefGoogle ScholarPubMed
Peters, EM, Goetzsche, JM, Grobbelaar, B & Noakes, TD (1993) Vitamin C supplementation reduces the incidence of postrace symptoms of upper-respiratory-tract infection in ultramarathon runners. American Journal of Clinical Nutrition 57, 170174.Google Scholar
Pincemail, J, Camus, G, Roesgen, A, Dreezen, E, Bertrand, Y, Lismonde, M, Deby-Dupont, G & Deby, C (1990) Exercise induces pentane production and neutrophil activation in humans: effect of propranolol. European Journal of Applied Physiology 61, 319322.Google Scholar
Robertson, JD, Maughan, RJ, Duthie, GG & Morrice, PC (1991) Increased blood antioxidant systems of runners in response to training load. Clinical Science 80, 611618.Google Scholar
Rokitzi, L, Logemann, E, Sagredos, AN, Murphy, M, Wetzel-Roth, W & Keul, J (1994) Lipid peroxidation and antioxidative vitamins under extreme endurance stress. Acta Physiologica Scandinavica 154, 149154.Google Scholar
Rubin, BB, Romaschin, A, Walker, PM, Gute, DC & Korthuis, RJ (1996) Mechanisms of postischemic injury in skeletal muscle: intervention strategies. Journal of Applied Physiology 80, 369387.Google Scholar
Salminen, A & Vihko, V (1983) Lipid peroxidation in exercise myopathy. Experimental and Molecular Pathology 38, 380388.Google Scholar
Salo, DC, Donovan, CM & Davies, KJA (1991) HSP70 and other possible heat shock or oxidative stress proteins are induced in skeletal muscle, heart and liver during exercise. Free Radical Biology and Medicine 11, 239246.Google Scholar
Sanchez-Quesada, JL, Homs-Serradesanferm, R, Serrat-serrat, J, Serra-Grima, JR, Gonzalez-Sastre, F & Ordonez-Llanos, J (1995) Increase of LDL susceptibility to oxidation occurring after intense, long duration aerobic exercise. Atherosclerosis 118, 297305.Google Scholar
Sen, CK (1995) Oxidants and antioxidants in exercise. Journal of Applied Physiology 79, 675682.Google Scholar
Simon-schnass, I & Pabst, H (1988) Influence of vitamin E on physical performance. International Journal of Vitamin and Nutrition Research 58, 4954.Google ScholarPubMed
Sumida, S, Tanaka, K, Kitao, H & Nakadomo, F (1989) Exercise-induced lipid peroxidation and leakage of enzymes before and after vitamin E supplementation. International Journal of Biochemistry 21, 835838.Google Scholar
Symons, MCR (1988) Formation of radicals by mechanical processes. Free Radical Research Communications 5, 131139.CrossRefGoogle ScholarPubMed
Talla, SRR, Halter, RC & Dwivedi, C (1996) Xanthine oxidase inhibitory activity of caffeic, chlorogenic and ferulic acids. Biochemical Archives 12, 245247.Google Scholar
Tappel, A (1973) Lipid peroxidation damage to cell components. Federation Proceedings 32, 18701876.Google Scholar
Viguie, CA, Packer, L & Brooks, GA (1989) Antioxidant supplementation affects indices of muscle trauma and oxidant stress in human blood during exercise. Medicine and Science in Sports and Exercise 21, S16.CrossRefGoogle Scholar
Ward, PA, Till, GO & Johnson, KJ (1990) Oxygen-derived free radicals and inflammation. In Sports-Induced Inflammation, pp. 315324 [Ledbetter, W, Buckwalter, J and Gordon, S, editors]. Park Ridge, IL: American Academy of Orthopedic Surgeons.Google Scholar
Warren, JA, Jenkins, RR, Packer, L, Witt, EH & Armstrong, RB (1992) Elevated muscle vitamin E does not attenuate eccentric exercise-induced muscle injury. Journal of Applied Physiology 72, 21682175.CrossRefGoogle Scholar
Wong, SHY, Knight, JA, Hopfer, SM, Zaharia, O, Leach, CN & Sunderman, FW (1987) Lipoperoxides in plasma as measured by liquid-chromatographic separation of malondialdehyde-thiobarbituric acid adduct. Clinical Chemistry 33, 214220.Google Scholar
Zapsilas, C & Anderle Beck, R (1985) Food Chemistry and Nutritional Biochemistry, pp. 273275. New York: John Wiley and Sons.Google Scholar