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研究生: 林靜怡
Lin, Ching-I
論文名稱: 長期攝取糙米對高中排球員抗氧化能力之影響
Effect of Ingesting Brown Rice on Anti-Oxidation Ability in Senior High School Women Volleyball Players
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: 2016
畢業學年度: 104
語文別: 中文
論文頁數: 42
中文關鍵詞: 米糠總抗氧化能力肌肉損傷
英文關鍵詞: rice bran, total anti-oxidation capacity, muscle damage
DOI URL: https://doi.org/10.6345/NTNU202204733
論文種類: 學術論文
相關次數: 點閱:172下載:7
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  • 目前常見的維生素增補劑(如維生素E、C與β-胡蘿蔔素)不乏出現在抗氧化與降低肌肉損傷的研究當中,但對於長期食用具有抗氧化食品對於抗氧化能力影響尚不清楚。目的:探討長期食用糙米對於高中女子排球運動員的總抗氧化能力與肌肉損傷之影響。方法:招募兩支高中女子甲組排球隊,各11位隊員,一組以糙米為主食的球隊(糙米組),且已經連續以糙米為主食一~三年;另一組為無食用糙米的球隊(對照組)。兩組各別進行為期五天的平日訓練,每天上下午各三小時與晨操一小時半的輕度體能運動,結束五天訓練後完整休息24小時。第一天開始訓練前進行第一次抽血 (pre),第五天訓練後立即進行第二次抽血 (pt0),休息24小時後第三次抽血 (pt24h)。每一血液樣本均檢測總抗氧化狀態 (TAC)、肌酸激酶 (CK)、乳酸脫氫酶 (LDH),並以二因子混合設計變異數分析考驗糙米組與對照組之差異。結果:兩組分別在TAS、CK與LDH皆無交互作用;在各組內三個採血點間有顯著差異:TAC pt0顯著高於pre (p<.05); pre顯著高於pt24h (p<.05)。在CK與LDH中,pt0與pt24h皆顯著高於pre (p<.05)。結論:長期食用糙米主食無法明顯提升球員的總抗氧化能力,推論平日食用量無法如增補抗氧化劑一樣在生理上有立即性的影響,亦可能與糙米中米糠層之植酸鈣鎂影響鐵質與鈣質吸收影響所致,則有待日後再繼續探討。

    Purpose: The experiment was to investigate the effects of ingesting the brown rice on total antioxidant and muscle injury for high school women volleyball players. Methods: This study had 22 players from two high school volleyball teams were divited into two groups. Participants in the brown rice group had eaten brown rice for one to three years and the control group never ate brown rice. Each group had five days of training which included 1.5 hours low intensity exercise and 3 hours ragular training in the morning and afternoon each day. In addition, all participants took twenty-four hours to recover their physical capacities after five days training. Blood sample was taken from each participant at pre-test before training began (pre)、post-test after training finished on fifth day (pt0)、and post-test after took rest for twenty-four hours (pt24h). Each blood sample was analyzed for TAS、CK and LDH. The difference between two groups was analyzed by using two-way ANOVA, mixed design method. Results: The results show no significant differences between groups at all measurement point for TAS、CK and LDH, and significant differences between three times of blood sampling with each group: TAC pt0 is higher than TAC pre (P<.05);TAC pre is higher than TAC pt24h (P<.05). In CK and LDH, the results of pt0 and pt24h are higher than pre (p<.05). Conclusion: The research shows eatting brown rice with daily amount doesn’t improve the total antioxidant capacities of volleyball players. However, the rice bran layer and phytin of brown rice may affect the absorption of calcium and iron

    中文摘要 i 英文摘要 ii 謝誌 iii 目次 iv 表次 vii 圖次 viii 第壹章 緒論 1 第一節 問題背景 1 第二節 研究目的 4 第三節 名詞操作定義 4 第四節 研究範圍與限制 5 第五節 研究的重要性 5 第貳章 文獻探討 6 第一節 自由基與氧化壓力 6 第二節 運動與抗氧化能力 7 第三節 抗氧化劑與肌肉損傷 8 第四節 糙米與抗氧化力 10 第五節 文獻總結 11 第參章 研究方法 12 第一節 實驗參與者 12 第二節 實驗設計與方法 13 第三節 訓練課表 15 第四節 分析方法 17 第五節 統計方法 18 第肆章 結果 19 第一節 肌酸激酶(creatine kinase, CK)濃度 19 第二節 乳酸脫氫酶(lactate dehydrogenase, LDH)濃度 20 第三節 總抗氧化狀態(total anti-oxidant capacity, TAC)濃度 21 第伍章 討論與結論 22 第一節 糙米對肌肉損傷的影響 22 第二節 糙米對總抗氧化能力的影響 24 第三節 糙米抗氧化之利弊 26 第四節 結論 28 第五節 建議 29 引用文獻 30 附錄 35 附錄一 水稻生產履歷記錄表 35 附錄二 實驗參與者告知同意書 36 附錄三 健康與增補調查表 38 附錄四 實驗原始數據 39 個人小傳 42

    王銘揚(2003)。頂尖青少女排球選手抗氧化酵素活性與氧化傷之探討(碩士論文)。取自全國碩博士論文資訊網。
    王雪豔、左曉旭、舒小麗、吳殿星(2005)。富鐵水稻研究進展。核農學報,19(5),404-408。
    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。大專體育期刊,5(1),297-304。
    李淑華(2004)。適當的體適能運動處方對於提昇人體自由基清除效率相關性之研究(碩士論文)。取自全國碩博士論文資訊網。
    林吟映、林瑞興、方進隆(2008)。單次無氧運動對血液肌酸激酶、乳酸脫氫酶及嗜中性白血球之影響。屏東教大運動科學學刊,4,25-35。

    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
    陳晶琳、曾文培(2006)氧化壓力對激烈運動的細胞凋亡影響之探討。彰化師大體育學報,6,259-301。
    陳韶華、游鳳芸、黃艾君(2011)。抗氧化劑之補充對運動適應之影響。交大體育學刊,2,107-116。

    陳葵蓉、盧立卿、張恩崇、陳玫玲、謝伸裕(2012)。大專優秀女子排球選手飲食營養評估。運動教練科學。28,23-36。

    黃敏雄、吳敬誠、林鳳瑞(2009)。健康食品暨保養智慧。臺北:華香園出版社。

    簡鸝慧(2010)。增補抗氧化劑對急性低氧運動測試之影響(碩士論文)。國立台灣師範大學,台北市。

    劉錫崑、曾文培(2006)。激烈運動造成氧化壓力之探討。彰化師大體育學報,6,202-213。

    Armstrong, R. B., Ogilvie, R. W., & Schwane, J. A. (1983) . Eccentric exercise-induced injury to rat skeletal muscle, Journal of Applied Physiology Respiratory Environmental and Exercise Physiology. 54,1, 80–93.
    Balakrishnan, S.D. & Anuradha, C.V.(1998). Exercise, depletion of antioxidants and antioxidant
    manipulation. Cell Biochemisty and Function, 16, 269-175.

    Bejma, J., & Ji, L. L. (1999). Aging and acute exercise enhance free radical generation in rat skeletal muscle. Journal of Applied Physiology, 87, 465-470.
    Bloomer, R. J. (2007). The role of nutritional supplements in the prevention & treatment of resistance exercise-induced skeletal. Sports Medicine, 37(6), 519-532.
    Child, R.B., Wilkinson, D.M., Fallowfield, J.L., & Donnelly, A.E.(1998).Elevated serum antioxidant capacity and plasma malondialdehyde concentration in response to a simulated half-marathon run. Medicine & Science in Sports & Exercise. 18(2), 89-93.
    Cazzola R, Russo-Volpe S, Cervato G, Cestaro B. (2003) Biochemical assess-ments of oxidative stress, erythrocyte membrane fluidity and antioxi- dant status in professional soccer players and sedentary controls. European Journal Clinical Investigation. 33: 924–930.
    Chisayo Kozukaa, Kouichi Yabikua, Chitoshi Takayamab, Masayuki Matsushitac, Michio Shimabukurod, Hiroaki Masuzaki (2013). Natural food science based novel approach toward prevention and treatment of obesity and type 2 diabetes: Recent studies on brown rice and γ-oryzanol. Obesity Research & Clinical Practice, 7, 165-172
    Cazzola R, Russo-Volpe S, Cervato G, Cestaro B (2003). Biochemical assessments of oxidative stress, erythrocyte membrane fluidity and antioxidant status in professional soccer players and sedentary controls. European Journal Clinical Investigation, 33, 924–930
    Devasagayam, T., Tilak, J., Boloor, K., Sane, K., Ghaskadbi, S., & Lele, R. (2004). Free radicals and antioxidants in human health: Current status and future prospects. Journal of Association of Physicians of Inida, 52, 794-804
    Fisher-Wellman, K., & Bloomer, R. J. (2009). Acute exercise and oxidative stress: a 30 year history. Dynamic Medicine, 8, 1-25. doi: 10.1186/1476-5918-8-1
    Finaud, J., Scislowski, V., Lac, G., Durand, D., Vidalin, H., Robert, A., & Filaire, E. (2006). Antioxidant status and oxidative stress in professional rugby players: evolution throughout a season. International Journal of Sports Medicine, 27(2), 87-93.
    Goldfarb, A. H., Bloomer, R. J., & McKenzie, M. J. (2005). Combined antioxidant treatment effects on blood oxidative stress after eccentric exercise. Medicine & Science in Sports & Exercise, 37(2), 234-239.
    Gomez-Cabrera, MC, Domenech, E, Romagnoli, M, Arduini, A, Borras, C, Pallardo, FV, Sastre, J, & Vina, J (2008). Oral administration of vitamin C decreases muscle mitochondrial biogenesis and hampers training-induced adaptations in endurance performance. The American Journal Clinical Nutrition. 87, 142–149.
    Kim Jung Yun, Do Min Hee & Lee Sang Sun (2005).The effect of a mixture of brown and black rice on lipid profiles and antioxidant status in rats. Annals of Nutrition and Metabolism.50, 347-353.
    Kawabata, K., Tanaka, T., Murakami, T., Okada, T., Murai, H., Yamamoto, T., Hara, A., Shimizu, M., Yamada, Y., Matsunaga, K. (1999). Dietary prevention of azoxymethane-induced colon carcinogenesis with rice-germ in F344 rats. Carcinogenesis , 20, 2109-2115.
    Kong S, J Lee (2010) Antioxidants in milling fractions of black rice cultivars. Food Chemistry. 120, 278281.
    Henderson, A. J., Ollila, C. A., Kumar, A., Borresen, E. C., Raina, K., Agarwal, R. and Ryan, E. P.(2012). Chemopreventive properties of dietary rice bran: current status and future prospects. American Society for Nutrition. 3,643-653.
    Leyre Gravina, Fatima Ruiz, Elena Diaz, Jose Antonio Lekue, Aduna Badiola, Jon Irazusta and Susana Maria Gil(2012). Influence of nutrient intake on antioxidant capacity, muscle damage and white blood cell count in female soccer players. Journal of the International Society of Sports Nutrition, 9, 32-42.
    Popovic, L. M., Mitic, N. R., Radic, I., (2012). The effect of exhaus- tive exercise on oxidative stress generation and antioxidant defense in guinea pigs. Advances in Clinical and Experimental Medicine, 21(3). 313–320.
    Minamiyama, Y., Yoshikawa, T., Tanigawa, T., Takahashi, S., Naito, Y., Ichikawa, H., and Kondo, M. (1994). Antioxidative effects of a processed grain food. Journal Nutritional Science Vitaminology, 40, 467-477.
    Margaritis I, Tessier F, Richard MJ, Marconnet P (1997). No evidence of oxidative stress after a triathlon race in highly trained competitors. International Journal of Sports Medicine ,18,186–90.
    Malaguti, M., Angeloni, C., Garatachea, N. (2009) Sulforaphane treatment protects skeletal muscle against damage induced by exhaustive exercise in rats. Journal of Applied Physiology, 107, 4, 1028–1036.
    Martinovic, J., Dopsaj, V., Dopsaj, M. J., Kotur-Stevuljevic, J., Vujovic, A., Stefanovic, A., Nesic, G., (2009). Long-term Effects of Oxidative Stress in Volleyball Players. International Journal of Sports Medicine. 30, 851–856.
    Martinovic, J., Dopsaj, V., Kotur-Stevuljevic, J., Dopsaj, M., Vujovic , A., Stefanovic, A. & Nesic, G. (2011). Oxidative Stress Biomarker Monitoring in Elite Women Volleyball Athletes During a 6-Week Training Period. Journal of Strength and Conditioning Research. 25(5), 1360–1367.
    Michalis G. Nikolaidis, Chad M. Kerksick, Manfred Lamprecht, and Steven R. McAnulty (2012). Does vitamin C and vitamin E supplementation impair the favorable adaptations of regular exercise? , Oxidative Medicine and Cellular Longevity, doi:1155/2012/707941
    Marco Malaguti, Cristina Angeloni, and Silvana Hrelia (2013). Polyphenols in Exercise Performance and Prevention of Exercise-Induced Muscle Damage. Oxidative Medicine and Cellular Longevity. 2013,9-17.
    Noaman E, Badr El-Din NK, Bibars MA, Abou Mossallam AA, Ghoneum M (2008). Antioxidant potential by arabinoxylan rice bran, MGN-3/Biobran, represents a mechanism for its oncostatic effect against murine solid Ehr- lich carcinoma. Cancer Letters. 59, 268-348.
    Peake, J., Nosaka, K., & Suzuki, K. (2005). Characterization of inflammatory responses to eccentric exercise in humans. Infection and Immunity, 11, 64-85.
    Ramarathnam N, T Osawa, H Ochi, S Kawakishi (1995) The contribution of plant food antioxidants to human health. Trends Food Science, 6, 7582.
    Radak, Z., Pucsuk, J., Boros, S., Josfai, L., & Taylor, A. (2000). Changes in urine 8-hydroxydeoxyguanosine levels of super-marathon runners during a four-day race period. Life Science, 66(18), 1763-1767.
    Radak, Z, Chung, HY, & Goto, S (2008). Systemic adaptation to oxidative challenge induced by regular exercise. Free Radical Biology & Medicine. 44, 153– 159,.
    Scott, K. E., Rozenek, R., Russo, A. C., Crussemeyer, J. A., & Lacourse, M. G. (2003). Effects of delayed onset muscle soreness on selected physiological responses to submaximal running. Journal of Strength and Conditioning Research, 17(4), 652-658.
    Srinivasan M, Sudheer AR, Menon VP. Ferulic acid: therapeutic poten- tial through its antioxidant property. Journal Clinical Biochemistry Nutritional. 40, 92–100.
    Young, I. S., & Woodside, J. V. (2001). Antioxidants in health and disease. Journal of Clinical Pathology, 54(3), 176-186
    Urso, M. L. & Clarkson, P. M. ( 2003). Oxidative stress, exercise, and antioxidant supplementation. Toxicology. 189, 41-54.
    Volpe S (2006). Vitamins, minerals and exercise. Sports Nutrition: A Practice Manual for Professionals. Edited by Dunford M. Chicago, 61–63.
    Vincent HK, Vincent KR (1997). The effect of training status on the serum creatine kinase response, soreness and muscle function following resistance exercise. Int J Sports Med. 18,431–437.
    Zoppci CC, Hohl R, Silva FC, Lazarim FL, Neto JM, Stancanneli M, Macedo DV (2006). Vitamin C and E supplementation effects in professional soccer players under regular training. Journal International Society Sport Nutrition.3, 37-44.

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