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研究生: 潘賢章
Hsien-Chang Pan
論文名稱: 不同速度阻力運動對能量消耗與合成性荷爾蒙的影響
The Influence of Different Speed Resistance Exercises on Energy Expenditure and Anabolic Hormone
指導教授: 林正常
Lin, Jung-Charng
學位類別: 碩士
Master
系所名稱: 體育學系
Department of Physical Education
論文出版年: 2008
畢業學年度: 96
語文別: 中文
論文頁數: 70
中文關鍵詞: 運動後過攝氧量生長激素睪固酮皮質固醇
英文關鍵詞: excess post-exercise oxygen consumption (EPOC), growth hormone, testosterone, cortisol
論文種類: 學術論文
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  • 目的:比較相同強度及工作量,不同收縮速度進行阻力運動後,能量消耗與荷爾蒙濃度是否有差異。方法:實驗對象為10名有阻力運動訓練經驗的體育系男性學生(年齡22.50 ± 2.24 yrs;身高173.5 ± 4.9 cm;體重71.3 ± 4.6 kg) 以平衡次序的方式,進行兩種速度(快速:向心收縮2秒,離心收縮2秒,運動持續時間16分鐘;慢速:向心收縮4秒,離心收縮4秒,運動持續時間32分鐘)的阻力運動(3組,8種運動,45%1RM,10次反覆),分別觀察運動中與運動後(0~20、40~60和100~120min)影響運動後過攝氧量(EPOC)的各項數值、能量消耗以及生長激素、皮質固醇與睪固酮三種荷爾蒙濃度。結果:兩種收縮速度在心跳率、換氣量、體溫在運動中與運動後各階段皆無達到顯著差異。運動中的攝氧量方面,快速阻力運動顯著高於慢速(p<.05),而在運動後各階段皆無顯著差異。能量消耗方面,在慢速阻力運動中能量消耗顯著高於快速阻力運動(259.43 ± 32.54; 185.44 ± 18.06 kcal)(p<.05),但運動後則無顯著差異。在運動後過攝氧量方面,2小時的總量以及各階段皆無顯著差異。乳酸、生長激素與皮質固醇在慢速阻力運動後顯著高於快速(p<.05)。而睪固酮在兩阻力運動前後以及兩阻力運動間,皆無顯著差異。結論:(1) 快速阻力運動在運動中的攝氧量顯著高於慢速;而能量消耗方面,可能受到慢速阻力運動持續時間較長的因素,使得慢速阻力運動顯著高於快速。(2)恢復期能量消耗的影響只反應在恢復初期,而影響EPOC的因素(心跳率、換氣量、體溫、乳酸)並不足以提高明顯的EPOC。(3)慢速阻力運動能提供人體較佳的脂肪代謝與蛋白質合成的環境,此結果有可能是慢速阻力運動持續時間較長的關係。

    Purpose: This research compared the energy expenditure and hormone concentration after different kinds of contraction speed resistance exercises with the same intensity and total work. Methods: Ten male students (age: 22.5 ± 2.4 years; height: 173.5 ± 4.9 cm; weight: 71.3 ± 4.6 kg) from the Department of Physical Education who have experience in resistance exercise performed two different speeds (fast speed with 2 seconds in concentric contraction and 2 seconds in eccentric contraction, and the duration of the exercise is 16 minutes; slow speed with 4 seconds in concentric contraction and 4 seconds in eccentric contraction, and the duration of the exercise is 32 minutes) of resistance exercise (3 sets, 8 exercises, 45%1RM, and 10 repetitions) by counter-balanced design. The factors which may influence excess post-exercise oxygen consumption (EPOC), energy expenditure, the density of growth hormone, cortisol, and testosterone during and after exercise were observed. Results: In terms of the two contraction speeds, there were no significant differences in heart rate, ventilation, and body temperature during various stages of exercise and after exercise. The fast speed resistance exercise is significantly greater in oxygen consumption than the slow during exercise (p<.05), but there were no significant differences after exercise. The energy expenditure in slow speed resistance exercise was greater than that of fast speed (p<.05), but there were no significant differences after exercise. The total amount of EPCO during two hours after exercise and various stages showed no significant differences. Lactic acid, growth hormone, and cortisol were significantly higher after the slow speed resistance exercise than the fast. However, there were no significant differences in testosterone between slow and fast speed resistance exercise. Conclusion: (1) The fast speed resistance exercise was significantly greater in oxygen consumption than the slow speed. It might due to the longer duration of exercise, the energy expenditure in slow speed resistance exercise was greater than that of fast speed. (2) The influence of different speed resistance exercises on energy expenditure was found only during the exercise and the early stage of recovery from exercise. Factors such as heart rate, ventilation, body temperature and lactic acid that influence EPOC in exercise recovery stage showed no significant increase in EPOC. (3) The slow speed resistance exercise provided better environment for fat metabolism and anabolic protein, but that might due to the longer duration of exercise.

    目次 中文摘要…………………………………………………………………………………Ⅰ 英文摘要…………………………………………………………………………………Ⅱ 謝誌………………………………………………………………………………Ⅲ 目次………………………………………………………………………………Ⅳ 表次………………………………………………………………………………Ⅵ 圖次………………………………………………………………………………Ⅶ 第壹章 緒論………………………………………………………………1 一、 前言………………………………………………………………………1 二、 問題背景…………………………………………………………………4 三、 研究目的…………………………………………………………………7 四、 名詞操作性定義…………………………………………………………7 五、 研究限制…………………………………………………………………8 六、 研究的重要性……………………………………………………………9 第貳章 文獻探討……………………………………………………………10 一、 有關運動後過攝氧量之觀點…………………………………………10 二、 有關阻力運動後過攝氧量之影響……………………………………12 三、 不同速度阻力運動對運動後過攝氧量的影響………………………15 四、 有關阻力運動後對合成性荷爾蒙變化之影響………………………17 五、 本章總結………………………………………………………………19 第參章 研究方法與步驟……………………………………………………20 一、 受試者對象……………………………………………………………20 二、 實驗時間與地點………………………………………………………20 三、 實驗方法與流程………………………………………………………21 四、 測驗變項………………………………………………………………27 五、 資料處理與統計分析…………………………………………………27 第肆章 結果…………………………………………………………………29 一、 受試者基本資料………………………………………………………29 二、 受試者各項休息基準值………………………………………………29 三、 不同速度阻力運動中和恢復期的生理反應…………………………30 (一) 不同速度阻力運動中與運動後恢復期攝氧量的比較………………30 (二) 不同速度阻力運動中與運動後恢復期心跳率的比較………………31 (三) 不同速度阻力運動中與運動後恢復期換氣量的比較………………33 (四) 不同速度阻力運動中與運動後恢復期體溫的比較…………………34 (五) 不同速度阻力運動前與運動後皮質固醇的比較……………………35 (六) 不同速度阻力運動前與運動後睪固酮的比較………………………37 (七) 不同速度阻力運動前與運動後生長激素的比較……………………38 (八) 不同速度阻力運動前與運動後乳酸的比較…………………………39 (九) 不同速度阻力運動後恢復期各階段過攝氧量(EPOC)之比較……41 (十) 不同速度阻力運動中與運動後能量消耗之比較……………………42 第伍章 討論與結論…………………………………………………………44 一、 不同速度阻力運動對運動後過攝氧量的影響………………………44 二、 不同速度阻力運動對運動中與運動後能量消耗的影響……………47 三、 不同速度阻力運動對運動後荷爾蒙的影響…………………………49 四、 結論……………………………………………………………………52 五、 建議……………………………………………………………………53 引用文獻…………………………………………………………………………54 附錄………………………………………………………………………………59 附錄一 受試者健康情況調查表………………………………………………59 附錄二 受試者須知……………………………………………………………61 附錄三 受試者自願同意書……………………………………………………62 附錄四 實驗數據紀錄表………………………………………………………64 附錄五 飲食紀錄表……………………………………………………………65 附錄六 變異數分析摘要表……………………………………………………66 表次 表 4-1 受試者個人基本資料…………………………………………………29 表 4-2 受試者各項休息基準值………………………………………………30 表4-3 受試者運動中和運動後恢復期各階段的攝氧量……………………31 表4-4 受試者運動中和運動後恢復期各階段的心跳率……………………32 表4-5 受試者運動中和運動後恢復期各階段的換氣量……………………33 表4-6 受試者運動中和運動後恢復期各階段的體溫………………………35 表4-7 受試者運動前和運動後的皮質固醇…………………………………36 表4-8 受試者運動前和運動後的睪固酮……………………………………37 表4-9 受試者運動前和運動後的生長激素…………………………………38 表4-10 受試者運動前和運動後的乳酸………………………………………40 表4-11 受試者運動後恢復期各階段的過攝氧量……………………………41 表4-12 受試者運動中和運動後的能量消耗…………………………………42 圖次 圖 3-1 實驗流程圖……………………………………………………………21 圖4-1運動中和運動後恢復期各階段的攝氧量變化情形……………………31 圖4-2運動中和運動後恢復期各階段的心跳率變化情形……………………32 圖 4-3 運動中和運動後恢復期各階段的換氣量……………………………34 圖 4-4 運動中和運動後恢復期各階段的體溫………………………………35 圖 4-5 運動前和運動後的皮質固醇…………………………………………36 圖 4-6 運動前和運動後的睪固酮……………………………………………37 圖 4-7 運動前和運動後的生長激素…………………………………………39 圖 4-8 運動前和運動後的乳酸………………………………………………40 圖 4-9 運動後恢復期各階段的過攝氧量變化情形…………………………42 圖 4-10運動中和運動後能量消耗的變化情形………………………………43

    ㄧ、中文部份
    林正常 (2005)。運動生理學。台北市:師大書苑有限公司。

    林正常 (譯) (2004)。肌力與體能訓練。台北市:藝軒圖書出版社。
    (Baechle, T. R., & Earle, R. W., 2000)

    二、英文部分
    Ahtiainen, J. P., Pakarinen, A., Alen, M., Kraemer, W. J., and Häkkinen, K. (2003). Muscle hypertrophy, hormonal adaptations and strength development during strength training in strength-trained and untrained men. European Journal of Applied Physiology,89(6), 555-563.

    American College of Sports Medicine. (1998). ACSM’s resource manual for guidelines for exercise testing and prescription, 3rd ed. Williams and Wilkins, Baltimore, Md., pp134, 306.

    American College of Sports. (2005). ACSM’s Guidelines for Exercise testing and Prescription,7 ed. Williams and Wilkins, pp.154-155.

    Bahr, R., Gronnerod, O., and Sejersted, O. M. (1992). Effect of supramaximal exercise on excess postexercise O2 consumption. Medicine and Science in Sports and Exercise, 24(1), 66-71.

    Binzen, C. A., Swan, P. D., and Manore, M. M. (2001). Postexercise oxygen consumption and substrate use after resistance exercise in women. Medicine and Science in Sports and Exercise, 33(6), 932-938.

    Bloomer, R. J. (2005). Energy cost of moderate-duration resistance and aerobic exercise. Journal of Strength and Conditioning Research, 19(4), 878-882.

    Borsheim, E., and Bahr, R. (2003). Effect of exercise intensity, duration and mode on post-exercise oxygen consumption. Sports Medicine, 33(14), 1037-1060.

    Burleson, M. A., Jr., O'Bryant, H. S., Stone, M. H., Collins, M. A., and Triplett-McBride, T. (1998). Effect of weight training exercise and treadmill exercise on post-exercise oxygen consumption. Medicine and Science in
    Sports and Exercise, 30(4), 518-522.

    Costill, D. L., and Wilmore, J. H. (1999). Physiology of sport and exercise (2nded). United State: Human Kinetics.

    Dolezal, B. A., Potteiger, J. A., Jacobsen, D. J., and Benedict, S. H. (2000). Muscle damage and resting metabolic rate after acute resistance exercise with an eccentric overload. Medicine and Science in Sports and Exercise, 32(7), 1202-1207.

    Elliot, D. L., Goldberg, L., and Kuehl, K. S. (1992). Effects of resistance training on excess postexercise oxygen consumption. Journal of Applied Sport Science Research, 6(2), 77-81.

    Gaesser, G. A., and Brooks, G. A. (1984). Metabolic bases of excess post-exercise oxygen consumption: a review. Medicine and Science in Sports and Exercise, 16(1), 29-43.

    Gillette, C. A., Bullough, R. C., and Melby, C. L. (1994). Postexercise energy expenditure in response to acute aerobic or resistive exercise. International Journal of Sport Nutrition, 4(4), 347-360.

    Gore, C. J., and Withers, R. T. (1990). Effect of exercise intensity and duration on postexercise metabolism. Journal of Applied Physiology, 68(6), 2362-2368

    Goto, K., Ishii, N., Kizuka, T., and Takamatsu, K. (2005). The impact of metabolic stress on hormonal responses and muscular adaptations. Medicine and Science in Sports and Exercise, 37(6), 955-963.

    Häkkinen, K., and Pakarinen, A. (1993). Acute hormonal responses to two different fatiguing heavy-resistance protocols in male athletes. Journal of Applied
    Physiology, 74(2), 882-887.

    He, Z. H., Bottinelli, R., Pellegrino, M. A., Ferenczi, M. A., and Reggiani, C.(2000). ATP consumption and efficiency of human single muscle fibers with different myosin isoform composition. Biophysical journal, 79(2), 945-961.

    Hill, A. V., and Lupton, H. (1923). Muscular exercise, lactic acid and the supply and utilization of oxygen. Quarterly Journal of Medicine, 16, 135-171.

    Hoffman, J. R., Im, J., Rundell, K. W., Kang, J., Nioka, S., Spiering, B. A., et al. (2003). Effect of muscle oxygenation during resistance exercise on anabolic hormone response. Medicine and Science in Sports and Exercise, 35(11), 1929-1934.

    Hunter, G. R., Seelhorst, D., and Snyder, S. (2003). Comparison of metabolic and heart rate responses to super slow vs. traditional resistance training. Journal of Strength and Conditioning Research, 17(1), 76-81.

    Keeler, L. K., Finkelstein, L. H., Miller, W., and Fernhall, B. (2001). Early-phase adaptations of traditional-speed vs. superslow resistance training on strength and aerobic capacity in sedentary individuals. Journal of Strength and Conditioning Research, 15(3), 309-314.

    Kraemer, W. J., Loebel, C. C., Volek, J. S., Ratamess, N. A., Newton, R. U., Wickham, R. B., et al. (2001). The effect of heavy resistance exercise on the circadian rhythm of salivary testosterone in men. European Journal of Applied Physiology, 84(1-2), 13-18.

    Kraemer, W. J., Gordon, S. E., Fleck, S. J., Marchitelli, L. J., Mello, R., Dziados, J. E., et al. (1991). Endogenous anabolic hormonal and growth factor responses to heavy resistance exercise in males and females. International
    Journal of Sports Medicine, 12(2), 228-235.

    Kraemer, W. J., Marchitelli, L., Gordon, S. E., Harman, E., Dziados, J. E., Mello, R., et al. (1990). Hormonal and growth factor responses to heavy resistance exercise protocols. Journal of Applied Physiology, 69(4), 1442-1450.

    Kraemer, W. J., and Ratamess, N. A. (2005). Hormonal responses and adaptations to resistance exercise and training. Sports Medicine. 35(4), 339-361.

    Linnamo, V., Pakarinen, A., Komi, P. V., Kraemer, W. J., and Hakkinen, K. (2005). Acute hormonal responses to submaximal and maximal heavy resistance and explosive exercises in men and women. Journal of Strength and
    Conditioning Research, 19(3), 566-571.

    Mazzetti, S., Douglass, M., Yocum, A., and Harber, M (2007). Effect of explosive versus slow contractions and exercise intensity on energy expenditure. Medicine and Science in Sports and Exercise, 39(8), 1291-1301.

    Margaria, R., Edwards, H. T., and Dill, O. B. (1933). The possible mechanisms of contracting and paying the oxygen dept and the role of lactic acid in muscular contraction. American Journal of Physiology, 106, 689-715.

    McArdle, W. D., Katch, F. I., and Katch, V. I. (2000). Essentials of Exercise of Exercise Physiology, 2 nd Eds. Baltimore: Lippincott Williams & Wikkins.

    Melby, C., Scholl, C., Edwards, G., and Bullough, R. (1993). Effect of acute resistance exercise on postexercise energy expenditure and resting metabolic rate. Journal of Applied Physiology, 75(4), 1847-1853.

    Nelson, J., and Kravitz, L. (2004). Super slow resistance training. IDEA Personal Trainer, 13(6), 13-15.

    Pullinen, T., Mero, A., Huttunen, P., Pakarinen, A., and Komi, P. V. (2001). Resistance exercise-induced hormonal responses in men, women, and pubescent boys. Medicine and Science in Sports and Exercise, 34(5), 806-813.

    Quinn, T. J., Vroman, N. B., and Kertzer, R. (1994). Postexercise oxygen consumption in trained females: effect of exercise duration. Medicine and Science in Sports and Exercise 26(7), 908-913.

    Smilios, I., Pilianidis, T., Karamouzis, M., and Tokmakidis, S. P. (2003). Hormonal responses after various resistance exercise protocols. Medicine and Science in Sports and Exercise,35(4), 644-654.

    Sirithienthad, P. (2006). A Comparison of The Effects of Post Exercise Basal Metabolic Rate Among Continuous Aerobic, Intermittent, and Resistance Exercise: Implications for Weight Control. (Doctoral dissertation, The Florida State University College of Human Sciences, 2006). Digital Library Center, etd-04072006-124859.

    Thornton, M. K., and Potteiger, J. A. (2002). Effects of resistance exercise bouts of different intensities but equal work on EPOC. Medicine and Science in Sports and Exercise, 34(4), 715-722.

    Tremblay, A., Despres, J. P., Leblanc, C., Craig, C. L., Ferris, B., Stephens, T., et al. (1990). Effect of intensity of physical activity on body fatness and fat distribution. The American Journal of Clinical Nutrition, 51(2), 153-157.

    Westcott, W. L., Winett, R. A., Anderson, E. S., Wojcik, J. R., Loud, R. L., Cleggett, E., et al. (2001). Effects of regular and slow speed resistance training on muscle strength. Journal of Sports Medicine and Physical
    Fitness, 41(2), 154-158.

    Wong, A. C. K. (2004). Training strategy series- super slow training. AASFP Continuing Education Center.

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