簡易檢索 / 詳目顯示

研究生: 簡鸝慧
Chien, Li-Hui
論文名稱: 增補抗氧化劑對急性低氧運動測試之影響
The effect of antioxidant supplement on exercise in simulated hypoxia treatment.
指導教授: 謝伸裕
Hsieh, Shen-Yu
學位類別: 碩士
Master
系所名稱: 運動競技學系
Department of Athletic Performance
論文出版年: 2010
畢業學年度: 98
語文別: 中文
論文頁數: 51
中文關鍵詞: 高山症硫辛酸維生素C維生素E抗氧化酶
英文關鍵詞: α-lipoic acid, vitamin C, vitamin E, antioxidant enzymes
論文種類: 學術論文
相關次數: 點閱:214下載:4
分享至:
查詢本校圖書館目錄 查詢臺灣博碩士論文知識加值系統 勘誤回報
  • 目的:探討進行急性低氧運動測試 (4800m test) 前給予抗氧化劑增補對於減緩此測驗造成氧化傷害的影響,同時探討測試完後3天的抗氧化系統改變情形。方法:健康男性大學生12名 (年齡:21.6 ± 0.7 yr,身高:174.9 ± 6.8 cm,體重:78.4 ± 12.6 kg,最大攝氧量:44.4 ± 9.1 ml/kg/min,體脂肪:21.1 ± 3.5 %)以雙盲平衡次序原則分別讓實驗參與者服用麵粉 (control trial)、抗氧化劑(600 mg硫辛酸+1000 mg維生素C+400 IU維生素E)。採血點有:安靜態 (rest)、急性低氧運動測試前 (pre)、急性低氧運動測試後立即 (pt0’)、後30分鐘 (pt30’)、後60分鐘 (pt60’)、後1天 (pt1d)、後3天 (pt3d)。分析紅血球/血漿TBARS、蛋白質氧化傷害指標Carbonyl Protein、紅血球/血漿超氧化離子歧化酶(superoxide dismutase, SOD)、紅血球/血漿過氧化氫酶 (catalase, CAT)、紅血球/血漿麩胱甘肽過氧化酶 (glutathione peroxidase, GPx)、血漿葡萄糖 (glucose)、乳酸 (lactate)、尿酸 (uric acid)。結果:紅血球TBARS不論是對照處理或抗氧化劑處理皆在測試後立即顯著高於安靜態,但抗氧化劑在測試後30分鐘即可顯著降低紅血球TBARS,而無服用抗氧化劑則需至測試後1天才能降低;在測試後3天時間點不論對照處理或抗氧化劑處理皆無差異,但發現對照處理的血漿TBARS顯著高於安靜態,抗氧化劑處理的血漿GPx活性顯著低於安靜態,對照處理則在測試後3天的尿酸、紅血球GPx活性顯著高於安靜態。結論:抗氧化劑增補對於降低急性低氧運動測試所造成的氧化傷害有益,且在測試後3天也無氧化傷害。

    Purpose: To investigate the effect of antioxidant supplement on oxidative stress in 4800 m test. Methods: Twelve healthy college students were subjected to two trials: placebo trial and antioxidant trial (600 mg α-lipoic acid, 1000 mg vitamin C, and 400 IU vitamin E). Plasma and RBC levels of thiobarbituric acid reactive substancesm (TBARS), Plasma and RBC glutathione peroxidase activity (GPx), Plasma and RBC catalase activity (CAT), Plasma and RBC superoxide dismutase activity (SOD), lactate, glucose, carbonyl protein, uric acid were measured before treated with supplement (rest), before 4800 m test (pre), after 4800 m test (pt0’), post 30 minute (pt30’), post 60 minute (pt60’), post 1 day (pt1d), post 3 days (pt3d). Results: The 4800 m test significantly increased in the concentration of RBC TBARS for both trials. Antioxidant trial reduced TBARS in pt30’. Control trial had significantly increased in the concentration of plasma TBARS at pt3d. Placebo trial level of uric acid was increased significantly following the 4800 m test. Conclusion: Antioxidant supplement can reduce oxidative stress from 4800 m test within 30 min. Also, it no significantly increased in oxidative stress for 3 days.

    中文摘要 i 英文摘要 ii 謝誌 iii 目次 iv 表次 vi 圖次 vii 第一章 緒論 1 一、問題背景 1 二、目的 3 三、名詞操作性定義 3 第二章 相關文獻探討 5 一、自由基與氧化壓力 5 二、運動與抗氧化劑 7 三、硫辛酸與抗氧化系統 8 四、抗氧化劑增補 10 五、高山病的原因和機轉 11 六、高山病的預防與治療 12 七、低氧環境與氧化壓力 13 第三章 材料與方法 15 一、實驗參與者 15 二、飲食控制 15 三、實驗設計與分組 15 四、實驗步驟 17 五、材料與方法 19 六、統計 22 第四章 結果 23 一、血漿乳酸濃度 23 二、血漿葡萄糖濃度 24 三、紅血球氧化傷害指標TBARS濃度 25 四、紅血球SOD活性 26 五、紅血球CAT活性 27 六、紅血球GPx活性 28 七、血漿氧化傷害指標TBARS濃度 29 八、蛋白質氧化傷害指標carbonyl protein濃度 30 九、血漿SOD活性 31 十、血漿CAT活性 32 十一、血漿GPx活性 33 十二、尿酸uric acid濃度 34 第五章 討論與結論 35 一、抗氧化劑對代謝的影響 35 二、抗氧化劑對急性低氧運動測試的影響 35 三、增補後3天的抗氧化系統 37 四、結論 38 引用文獻 39 附件 45 附件一 實驗參與者 告知書 45 附件二 實驗參與者 同意書 46 附件三 健康篩檢問卷 47 附件四 飲食控制菜單 48 附件五 原始數據 49 附件六Lake Louise Score (LLS)中文版 50 個人小傳 51

    李淑玲、許美智(2003)。補充含抗氧化劑之飲料對高強度耐力運動時體內抗氧化能力及肌肉損傷之影響。大專體育學刊,5(1),297-304。

    林嘉志、姚承義(2007)。以激效作用觀點探討運動之抗老化機轉。運動生理暨體能學報,5,61-70。

    林嘉志、姚承義、陸康豪(2008)。硫辛酸增補對運動的可能效益。中華體育,22(2),24-33。

    林學宜、林俊宏、徐台閣(2004)。不同強度之耐力運動對血液中維生素C、E 濃度的影響。體育學報,37,1-10。

    徐台閤(1997)。半程馬拉松對自由基及自然殺手細胞之影響。大專運動科學86年度研究獎助專刊,135-148。

    翁立窈、郭博昭、蔡玉敏、溫德生、陳俊忠(2005)。身體特徵及生理反應與急性低氧症狀之相關性。中華民國航空醫學暨科學期刊,19(2),83-93。

    高偉君、曾春典、陳秀熙、馬惠明、陳俊忠、高偉峰(2006)。以玉山登山口與平地血氧飽和度差異預測急性高山病。中華民國急救加護醫學會雜誌,17(2),47-54。

    莊瑞焜、謝錦城(2007)。運動、自由基與抗氧化增補劑相關之探討。運動生理暨體能學報,6,23-34。

    陸康豪、謝伸裕、林嘉志(2009)。低氧環境與氧化壓力。中華體育季刊,23(1),1-9。

    蔡宗晏、徐谷甫、林益安、曾玉華、黃瓊誼、許美智(2009)。臺灣優秀運動選手使用營養增補劑的現況。大專體育學刊,11(4),141-152。

    賴育民(2007)。高山病的預防與治療。基層醫學,22(11),387-391。

    鐘子雯、陳福財、劉芳珍(2000)。補充水果之維生素C 與中高強度耐力訓練對運動員體內抗氧化狀況之影響。中華民國營養學會雜誌,25(2),91-98。

    李水碧 (譯) (2004)。體適能與全人健康的理論與實務。台北市:藝軒圖書出版社。 (Werner, W. L. H., & Sharon, A. H., 2003)
    趙克然、楊毅軍、曹道俊(2003)。氧自由基與臨床。台北市:合記。

    Alessio, H. M., Goldfarb, A. H., & Cao, G. (1997). Exercise-induced oxidative stress before and after vitamin C supplementation. International Journal of Sport Nutrition, 7(1), 1-9.

    Ames, B. N. (1983). Dietary carcinogens and anticarcinogens. Oxygen radicals and degenerative diseases. Science, 221(4617), 1256-1264.

    Ames, B. N., Shigena, M. K., & Hegen, T. M. (1993). Oxidants, antioxidants and the degenerative diseases of aging. Proceedings of the National Academy of Sciences of The United States of America, 90(17), 7915-7922.

    Armstrong, L. E. (2000). Performing in extreme environments. Champaign, IL: Human Kinetics.

    Armstrong, L. E., & Maresh, C. M. (1996). Vitamin and mineral supplements as nutritional aids to exercise performance and health. Nutrition Review, 54(4 Pt 2), S149-158.

    Baillie, J. K., Thompson, A. A., Irving, J. B., Bates, M. G., Sutherland, A. I., Macnee, W., et al. (2009). Oral antioxidant supplementation does not prevent acute mountain sickness: double blind, randomized placebo-controlled trial. Monthly Journal of The Association of Physicians, 102(5), 341-348.

    Biewenga, G. P., Haenen, G. R., & Bast, A. (1997). The pharmacology of the antioxidant lipoic acid. General Pharmacology, 29(3), 315-331.

    Bjelakovic, G., Nikolova, D., Gluud, L. L., Simonetti, R. G., & Gluud, C. (2007). Mortality in randomized trials of antioxidant supplements for primary and secondary prevention: systematic review and meta-analysis. Journal of The American Medical Association, 297(8), 842-857.

    Burton, G. W., & Ingold, K. U. (1989). Vitamin E as an in vitro and in vivo antioxidant. Annals of The New York Academy of Sciences, 570, 7-22.

    Chao, W. H., Askew, E. W., Roberts, D. E., Wood, S. M., & Perkins, J. B. (1999). Oxidative stress in humans during work at moderate altitude. Journal of Nutrition, 129(11), 2009-2012.

    Childs, A., Jacobs, C., Kaminski, T., Halliwell, B., & Leeuwenburgh, C. (2001). Supplementation with vitamin C and N-acetyl-cysteine increases oxidative stress in humans after an acute muscle injury induced by eccentric exercise. Free Radical Biology & Medicine, 31(6), 745-753.

    Clanton, T. L. (2007). Hypoxia-induced reactive oxygen species formation in skeletal muscle. Journal of Applied Physiology, 102(6), 2379-2388.

    Diaz, M. N., Frei, B., Vita, J. A., & Keaney, J. F. (1997). Antioxidants and atherosclerotic heart disease. New England Journal of Medicine, 337(6), 408-416.

    Dosek, A., Ohno, H., Acs, Z., Taylor, A. W., & Radak, Z. (2007). High altitude and oxidative stress. Respiratory Physiology & Neurobiology, 158(2-3), 128-131.

    Finaud, J., Lac, G., & Filaire, E. (2006). Oxidative stress : relationship with exercise and training. Sports Medicine, 36(4), 327-358.

    Gey, K. F. (1990). The antioxidant hypothesis of cardiovascular disease: epidemiology and mechanisms. Biochemical Society Transactions, 18(6), 1041-1045.

    Gonzalez, G., Celedon, G., Escobar, M., Sotomayor, C., Ferrer, V., Benitez, D., et al. (2005). Red cell membrane lipid changes at 3,500 m and on return to sea level. High Altitude Medicine & Biology, 6(4), 320-326.

    Harman, D. (1995). Role of antioxidant nutrients in aging: overview. Age, 18(2), 51-62.

    Harman, D. (2003). The free radical theory of aging. Antioxidants & Redox Signaling, 5(5), 557-561.

    Hellsten, Y. (1994). Xanthine dehydrogenase and purine metabolism in man. With special reference to exercise. Acta physiologica Scandinavica. Supplementum, 621, 1-73.

    Hermann, R., Niebch, G., Borbe, H. O., FiegerBuschges, H., Ruus, P., Nowak, H., et al. (1996). Enantioselective pharmacokinetics and bioavailability of different racemic alpha-lipoic acid formulations in healthy volunteers. European Journal of Phaemaceutical Sciences, 4(3), 167-174.

    Hooper, T. J., Levett, D. Z., Mellor, A. J., & Grocott, M. P. (2010). Resting and exercising cardiorespiratory variables and acute mountain sickness. Journal of The Royal Naval Medical Service, 96(1), 6-12.

    Janero, D. R. (1990). Malondialdehyde and thiobarbituric acid-reactivity as diagnostic indices of lipid peroxidation and peroxidative tissue injury. Free Radical Biology & Medicine, 9(6), 515-540.

    Kanter, M. M., Nolte, L. A., & Holloszy, J. O. (1993). Effects of an antioxidant vitamin mixture on lipid peroxidation at rest and postexercise. Journal of Applied Physiology, 74(2), 965-969.

    Khanna, S., Atalay, M., Laaksonen, D. E., Gul, M., Roy, S., & Sen, C. K. (1999). a-Lipoic acid supplementation: tissue glutathione homeostasis at rest and after exercise. Journal of Applied Physiology 86(4), 1191-1196.

    Kosenko, E. A., Kaminsky Yu, G., Stavrovskaya, I. G., Sirota, T. V., & Kondrashova, M. N. (1997). The stimulatory effect of negative air ions and hydrogen peroxide on the activity of superoxide dismutase. FEBS Letters, 410(2-3), 309-312.

    Kozlov, A. V., Gille, L., Staniek, K., & Nohl, H. (1999). Dihydrolipoic acid maintains ubiquinone in the antioxidant active form by two-electron reduction of ubiquinone and one-electron reduction of ubisemiquinone. Archives of Biochemistry and Biophysics, 363(1), 148-154.

    Magalhaes, J., Ascensao, A., Soares, J. M., Ferreira, R., Neuparth, M. J., Marques, F., et al. (2005). Acute and severe hypobaric hypoxia increases oxidative stress and impairs mitochondrial function in mouse skeletal muscle. Journal of Applied Physiology, 99(4), 1247-1253.

    Magalhaes, J., Ascensao, A., Soares, J. M., Neuparth, M. J., Ferreira, R., Oliveira, J., et al. (2004). Acute and severe hypobaric hypoxia-induced muscle oxidative stress in mice: The role of glutathione against oxidative damage. European Journal of Applied Physiology, 91(2-3), 185-191.

    Maiti, P., Singh, S. B., Sharma, A. K., Muthuraju, S., Banerjee, P. K., & Ilavazhagan, G. (2006). Hypobaric hypoxia induces oxidative stress in rat brain. Neurochemistry International, 49(8), 709-716.

    Marsh, S. A., & Coombes, J. S. (2006). Vitamin E and alpha-lipoic acid supplementation increase bleeding tendency via an intrinsic coagulation pathway. Clinical and Applied Thrombosis/Hemostasis, 12(2), 169-173.

    Maxwell, S. R. J., Jaleman, P., Thomason, H., Leguen, C., & Thorpe, G. H. (1998). Changes in plasma antioxidant status during eccentric exercise and the effect of vitamin supplementation. Free Radical Research, 84, 407-412.

    Pialoux, V., Mounier, R., Brugniaux, J. V., Rock, E., Mazur, A., Richalet, J. P., et al. (2009a). Thirteen days of "live high-train low" does not affect prooxidant/antioxidant balance in elite swimmers. European Journal of Applied Physiology, 106(4), 517-524.

    Pialoux, V., Mounier, R., Rock, E., Mazur, A., Schmitt, L., Richalet, J. P., et al. (2009b). Effects of acute hypoxic exposure on prooxidant/antioxidant balance in elite endurance athletes. International Journal of Sports Medicine, 30(2), 87-93.

    Powers, S. K., DeRuisseau, K. C., Quindry, J., & Hamilton, K. L. (2004). Dietary antioxidants and exercise. Journal of Sports Sciences, 22(1), 81-94.

    Richalet, J. P., Keromes, A., Dersch, B., Corizzi, F., Mehdioui, H., Pophillat, B., et al. (1988). Caractéristiques physiologiques des alpinistes de haute altitude. Science & Sports, 3(2), 89-108.

    Sacheck, J. M., Milbury, P. E., Cannon, J. G., Roubenoff, R., & Blumberg, J. B. (2003). Effect of vitamin E and eccentric exercise on selected biomarkers of oxidative stress in young and elderly men. Free Radical Biology & Medicine, 34(12), 1575-1588.

    Scholich, H., Murphy, M. E., & Sies, H. (1989). Antioxidant activity of dihydrolipoate against microsomal lipid peroxidation and its dependence on alpha-tocopherol. Biochimica et Biophysica Acta, 1001(3), 256-261.

    Sies, H. (1993). Strategies of antioxidant defense. European Journal of Biochemistry, 215(2), 213-219.

    Singh, U., & Jialal, I. (2008). Alpha-lipoic acid supplementation and diabetes. Nutrition Reviews, 66(11), 646-657.

    Smith, M. A., Perry, G., Richey, P. L., Sayre, L. M., Anderson, V., Beal, M. F., et al. (1996). Oxidative damage in Alzheimer's. Nature, 382(6587), 120-121.

    Suh, J. H., Moreau, R., Heath, S. H., & Hagen, T. M. (2005). Dietary supplementation with (R)-alpha-lipoic acid reverses the age-related accumulation of iron and depletion of antioxidants in the rat cerebral cortex. Redox Report, 10(1), 52-60.

    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(8), 835-838.

    Vasankari, T. J., Kujala, U. M., Vasankari, T. M., Vuorimaa, T., & Ahotupa, M. (1997). Increased serum and low-density-lipoprotein antioxidant potential after antioxidant supplementation in endurance athletes. American Journal of Clinical Nutrition, 65(4), 1052-1056.

    Young, I. S., & Woodside, J. V. (2001). Antioxidants in health and disease. Journal of Clinical Pathology, 54(3), 176-186.

    下載圖示
    QR CODE