研究生: |
吳柏翰 Wu, Bo-Han |
---|---|
論文名稱: |
咖啡因與碳水化合物攝取對阻力運動後能量代謝與同化性荷爾蒙之影響 The effects of caffeine and carbohydrate intake on substrate metabolism and anabolic hormones after resistance exercise |
指導教授: |
林正常
Lin, Jung-Charng |
學位類別: |
博士 Doctor |
系所名稱: |
體育學系 Department of Physical Education |
論文出版年: | 2007 |
畢業學年度: | 95 |
語文別: | 中文 |
論文頁數: | 100 |
中文關鍵詞: | 咖啡因 、碳水化合物 、同化性荷爾蒙 、阻力運動 |
英文關鍵詞: | caffeine, carbohydrate, anabolic hormone, resistance exercise |
論文種類: | 學術論文 |
相關次數: | 點閱:214 下載:55 |
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背景:本研究的目的在探討運動前攝取咖啡因與碳水化合物對阻力運動後能量代謝與同化性荷爾蒙反應的影響。方法:本研究的受試者為10名有規律阻力運動習慣的男性大學生。所有受試者在實驗前接受最大肌力 (1RM) 測驗後,以平衡次序分配進行攝取咖啡因 (CAF;6mg/kg)、碳水化合物 (CHO;1g/kg)、咖啡因+碳水化合物 (CHO+CAF;1g+6mg/kg) 與安慰劑 (CON) 等4次實驗,每次實驗間隔7天,受試者在阻力運動開始前1小時攝取增補劑,隨後進行阻力運動 (3組;75%1RM強度進行10次反覆;8個動作;每組休息時間為5分鐘)。在運動前1小時 (pre-60)、運動前立即 (pre-exe) 與運動後0、15、30分鐘 (P0、P15、P30) 抽取血液。本研究以相依樣本二因子 (實驗處理×時間) 變異數分析 (ANOVA) 檢定內分泌反應 (睪固酮、生長激素、皮質固醇、胰島素) 與能量代謝指標 (血糖、血乳酸、游離脂肪酸) 在不同實驗處理下是否有顯著差異。結果:數據分析後發現CHO在阻力運動後生長激素 (P0) 與胰島素 (P0、P15) 的濃度顯著提升,睪固酮 (P0、P15、P30) 和皮質固醇的濃度 (P0、P15) 顯著降低 (p< .05),CAF在阻力運動後生長激素的濃度 (P0、P15、P30) 顯著降低 (p< .05),CHO+CAF顯著提升阻力運動後胰島素濃度 (P0),降低睪固酮濃度 (P0、P15、P30) (p< .05)。結論:1.阻力運動前攝取葡萄糖提升運動後生長激素與胰島素的反應,降低血液中睪固酮濃度,並且抑制皮質固醇的分泌。2.攝取咖啡因降低運動後生長激素的反應,但對胰島素、睪固酮與皮質固醇沒有顯著影響。3.同時攝取咖啡因與葡萄糖提升運動後胰島素的反應與降低血液中睪固酮濃度,但對生長激素與皮質固醇並沒有顯著影響。因此,咖啡因的攝取可能會降低葡萄糖對阻力運動後同化性荷爾蒙分泌環境的影響。
Background: The purpose of this study was to investigate the effects of caffeine and carbohydrate intake on substrate metabolism and acute hormonal responses to a single bout of resistance exercise (RE). Methods: Ten university male students regularly perform RE participated in this study. All subjects performed 1RM test, then performed four treatments:caffeine (CAF, 6mg/kg), carbohydrate (CHO, 1g/kg), carbohydrate+caffeine (CHO+CAF, 1g+6mg/kg) and control (CON) in counter balance order. All subjects intaked supplement 1 hour prior RE, then, the subjects performed RE (eight exercises, 3 sets of 10 repetitions at 75% of 1RM). Blood samples collected prior supplement intake (pre-60), immediately prior RE (pre-exe), and 0, 15, 30 min after RE (P0, P15, P30) for analysis of testosterone, cortisol, growth hormone, insulin, glucose, free fatty acid and lactic acid. Each experiment separated by 7 days. In this study, statistical analysis of a two-way analysis of variance (treatment by time) with repeated measures was applied. Results: After RE, CHO’s response of GH (P0) and insulin (P0, P15) were significantly higher than CON, the response of testosterone (P0, P15, P30) and cortisol (P0, P15) were significantly lower than CON (p<.05). CAF's response of GH (P0, P15, P30) was significantly lower than CON (p< .05). CHO+CAF’s response of insulin (P0) was significantly higher than CON, the response of testosterone (P0, P15, P30) was significantly lower than CON (p<.05). Conclusion: The results of this study indicated that intake glucose prior RE increased the response of GH and insulin, decreased the concentration of testosterone and cortisol. Moreover, intake caffeine prior RE inhibited the response of GH. Intake glouse and caffeine prior RE raise the response of insulin and decreased the concentration of testosterone, but no significant effects on GH and cortisol.
American College of Sports Medicine. (2002). Position Stand: progression models in resistance training for healthy adults. Medicine and Science in Sports and Exercise, 34(2), 364-80.
Anseleme, F., Collomp, K., Mercier, B., Ahmaidi, S., & Prefaut, C. (1992). Caffeine increases maximal anaerobic power and blood lactate concentration. European Journal of Applied Physiology, 65, 188-191.
Baechle, T. R., & Earle, R. W. (2000). Essentials of Strength Training and Conditioning (2nd ed.). Champaign, IL: Human Kinetics.
Bloomer, R. J., Sforzo, G. A., & Keller, B. A. (2000). Effects of meal form and composition on plasma testosterone, cortisol, and insulin following resistance exercise. International Journal of Sport Nutrition, 10, 415-424.
Chandler, R. M., Byrne, H. K., Paterson, J. G., & Ivy, J. L. (1994). Dietary supplements affect the anabolic hormones after weight training exercise. Journal of Applied Physiology, 76, 839-845.
Chesley, A., Howlett, R., Heigenhauser, G., Hultman, E., & Spriet, L. (1998). Regulation of muscle glycogenolytic flux during intense aerobic exercise after caffeine ingestion. American Journal of Physiology. Regulatory, Integrative and Comparative Physiology, 275, R596-603.
Conley, M. S., Stone, M. H., Marsit, J. L., O’Bryant, H. S., Nieman, D. C., Johnson, J. L., Butterworth, D., & Keith, R. (1995). Effects of carbohydrate ingestion on resistance exercise. Journal of Strength and Conditioning Research, 9, 20-27.
Daly, M, J., Bruns, R. F., & Snyder, S. H. (1981). Adenosine receptors in the central nervous system: Relationship to the central actions of methylxanthines. Life Science, 28, 2083-2097.
Dinan, T. G., Thakore, J., & O’KEANE, V. (1994). Lowering cortisol enhances growth hormone response to growth hormone releasing hormone in healthy subjects. Acta Physioogical Scandinavica, 151, 413–416.
Ebeling, P., Stenman, U. H., Seppala, M., & Koivisto, V. A. (1995). Acute hyperinsulinemia, androgen homeostasis and insulin sensitivity in healthy man. Journal of Endocrinology, 146, 63-69.
Erickson, M. A., Schwarzkopf, R. J., & McKenzie, R. D. (1987). Effects of caffeine, fructose, and glucose ingestion on muscle glycogen utilization during exercise. Medicine and Science in Sports and Exercise, 19, 579-583.
Essig, D., Costill, D., & Van Handel, P. (1980). Effects of caffeine ingestion on utilization of muscle glycogen and lipid during leg ergometer cycling. International Journal of Sports Medicine, 1, 86-90.
Florini, J. R. (1987). Hormonal control of muscle growth. Muscle Nerve,10, 577–598.
Fryer, M. W., & Neering, I. R. (1989). Actions of caffeine on fast- and slow-twitch muscles of the rat. Journal of Physiology, 416, 435-454.
Frystyk, J., Grofte, T., Skjaerbaek, C., & Orskov, H. (1997). The effect of oral glucose on serum free insulin-like growth factor-I and -II in health adults. Journal of Clinical Endocrinology and Metabolism, 82, 3124-3127.
Glatz, J.F., Bonen, A. & Luiken, J.J. (2002). Exercise and insulin increase muscle fatty acid uptake by recruiting putative fatty acid transporters to the sarcolemma. Current Opinion in Clinical Nutrition Metabolism Care, 5(4), 365-70.
Goto, K., Higashiyama, M., Ishii, N., & Takamatsu, K.(2005). Prior endurance exercise attenuates growth hormone response to subsequent resistance exercise. European Journal of Applied Physiology, 94, 333-338.
Graham, T. E., & Spriet, L. L. (1991). Performance and metabolic responses to a high caffeine dose during prolonged exercise. Journal of Applied Physiology, 71, 2292-2298.
Graham, T. E., Hibbert, E., Sathasivam, P. (1998). The metabolic and exercise endurance effects of coffee and caffeine ingestion. Journal of Applied Physiology, 85, 883-889.
Graham, T. E., Helge, J. W., MacLean, D. A., Kiens, B., & Richter, E. A. (2000). Caffeine ingestion does not alter carbohydrate or fat metabolism in human skeletal muscle during exercise. The Journal of Physiology, 529, 837-847.
Graham, T. E. (2001). Caffeine and exercise: Metabolism, endurance and performance. Sports Medicine, 31(11), 785-807.
Greer, F., Friars, D., & Graham, T. E. (2000). Comparison of caffeine and theophylline ingestion: exercise metabolism and endurance. Journal of Applied Physiology, 89, 1837-1844.
Haff, G. G., Stone, M. H., Warren, B. J., Keith, R., Johnson, R. L., Nienam, D. C., Williams, F., & Kirksey, K. B. (1999). The effect of carbohydrate supplementation on multiple sessions and bouts of resistance exercise. Journal of Strength and Conditioning Research, 13, 111–117.
Haff, G. G., Koch, A. J., Potteiger, J. A., Kuphal, K. E., Magee, L. M., Green, S. B., & Jakicic, J. J. (2000). Carbohydrate supplementation attenuates muscle glycogen loss during acute bouts of resistance exercise. International Journal of Sport Nutrition, 10, 326–339.
Haff, G. G., Schroeder, C. A., Koch, A. J., Kuphal, K. E., Comeau, M. J., & Potteiger, J. A. (2001). The effects of supplemental carbohydrate ingestion on intermittent isokinetic leg exercise. Journal of Sports Medicine and Physical Fitness, 41, 216–222.
Haff, G. G., Lehmkuhl, M. J., McCoy, L. B., & Stone, M. H. (2003). Carbohydrate supplementation and resistance training. Journal of Strength and Conditioning Research, 17, 187-196.
Hulmi, J. J., Volek, J. S., Harri, S., & Antti, A. M. (2005). Protein ingestion prior to strength exercise affects blood hormones and metabolism. Medicine and Science in Sports and Exercise, 37(11), 1990-1997.
Ivy, J., Costill, D., Fink, W., & Lower, R. (1979). Influence of caffeine and carbohydrate feedings on endurance performance. Medicine and Science in Sports and Exercise, 11, 6-11.
Jackman, M., Wendling, P., Friars, D., & Graham, T. E. (1996). Metabolic catecholamine, and endurance responses to caffeine during intense exercise. Journal of Applied Physiology, 81, 1658-1663.
Jones, J. I., & Clelmmons, D. R. (1995). Insulin-like growth factors and the binding proteins: biological actions. Endocrine Reviews, 16, 3-34.
Kefly, F. J., & Mcgrath, J. A. (1986). A morphological/biochemical
study on the action of corticoids on rat skeletal muscle. Muscle Nerve, 9, 1–10.
Keul, J., Haralambie, G., Bruder, M., & Gottstein, H. J. (1978). The effect of weight lifting exercise on heart rate and metabolism in experienced weight lifters. Medicine and Science in Sports and Exercise, 10, 13–15.
Koch, A. J., Potreiger, J. A., Chan, M. A., Benedct, S. H., & Frey, B. B. (2001). Minimal influence of carbohydrate ingestion on the immune response following acute resistance exercise. International Journal of Sport Nutrition, 11, 149-161.
Kraemer, W. J. (1992). Hormonal mechanisms related to the expression of muscular strength and power. In: Strength and Power in Sport.
P.V. Komi, ed. Oxford: Blackwell Scientific.
Kraemer, W. J., Volek, J. S., Bush, J. A., Putukian, M., & Sebastianelli, W.J. (1998). Hormonal responses to consecutive days of heavy-resistance exercise with or without nutritional supplementation. Journal of Applied Physiology, 85, 1544–1555.
Kraemer, W. J., & Ratamess, N. A. (2005). Hormonal responses and adaptations to resistance exercise and training. Sports Medicine, 35(4), 339-361.
Kraemer, W. J., Spiering, B. A., Volek, J. S., et al. (2006). Androgenic responses to resistance exercise: effects of feeding and L-carnitine. Medicine and Science in Sports and Exercise, 38(7), 1288-1296.
Kok, P., Buijs, M. M., Kok, S. W., Van Ierssel, I. H., Frolich, M., Roelfsema, F., Voshol, P. J., Meinders, A. E., & Pijl, H. (2004). Acipimox enhances spontaneous growth hormone secretion in obese women. American Journal of Physiology, 286, R693–R698.
Lambert, C. P., Flynn, M. G., Boone, J. B., Michaud, T. J., & Rodriguez-Zayas, J. (1991). Effects of carbohydrate feeding on multiple-bout resistance exercise. Journal of Applied Sport Science Research, 5, 192–197.
Lanzi, R., Losa, M., Mignogna, G., Caumo, A., & Pontirol, A. E. (1999). The control on growth hormone release by free fatty acids is maintained in acromegaly. The Journal of Clinical Endocrinology and Metabolism, 84, 1234-1238.
Laurent, D., Schneider, K. E., Prusaczyk, W. K., Franklin, C., Vogel, S. M., & Krssak, M. (2000). Effects of caffeine on muscle glycogen utilization and the neuroendocrine axis during exercise. The Journal of Clinical Endocrinology and Metabolism, 85, 2170-2175.
Lovallo, W. R., Farag, N. H., Vincent, A. S., Thomas, T.L., & Wilson, M. F. (2006). Cortisol responses to mental stress, exercise, and meals following caffeine intake in men and women. Pharmacology, Biochemistry, and Behavior, 83(3), 441-447.
McMillan, J. L., Stone, M. H., Sartin, J., Keith, R., Marple, D.,Brown, C., & Lewis, R. D. (1993). 20-hour physiological responses to a single weight-training session. Journal of Strength and Conditioning Research, 7, 9–21.
Meikle, A. W., Benson, S. J., Liu, X. H., Boam, W. D., & Stringham, J. D. (1989). Nonesterified fatty acids modulate steroidogenesis in mouse Leydig cells. American Journal of Physiology, 257, E937-E942.
Motl, R. W., O'connor, P. J., Tubandt, L., Puetz, T., & Ely, M. R. (2006). Effects of caffeine on leg muscle pain during cycling exercise among females. Medicine and Science in Sports and Exercise, 38(3), 598-604.
Nakagawa, E., Nagaya, N., Okumura, H., Enomoto, M., Oya, H., Ono, F. et al. (2002). Hyperglycaemia suppresses the secretion of ghrelin, a novel growth-hormone releasing peptide: responses to the intravenous and oral administration of glucose. Clinical Sciences, 103, 325-328.
Pascoe, D. D., Costill, D. L., Fink, W. J., Robergs, R. A., & Zachweija, J. J. (1993). Glycogen resynthesis in skeletal muscle following resistive exercise. Science in Sports and Exercise, 25, 349-354.
Pasquali, R., Macor, C., Vicennati, V., Novo, F. (1997). Effects of acute hyperinsulinemia on testosterone serum concentrations in adult obese and normal-weight men. Metabolism, 46, 526-529.
Pollard, I. (1989). Increases in plasma concentrations of steroids in the rat after the administration of caffeine: comparison with plasma disposition of caffeine. The Journal of Endocrinology, 119, 275-280.
Rassmussen, B. B., Tipton, K. D., Miller, S. L., Wolf, S. E., & Wolef, R. R. (2000). An oral amino acid-carbohydrate supplercent enhances muscle protein anabolism after resistance exercise. Journal of Applied Physiology, 88, 386-392.
Robergs, R. A., Pearson, D. R., Costill, D. L., Fink, W. J., Pascoe, D. D., Benedict, M. A., Lambert, C. P.,& Zachweija, J. J. (1991). Muscle glycogenolysis during differing intensities of weight resistance exercise. Journal of Applied Physiology, 70, 1700-1706.
Roy, B. D., Tarnopolsky, M. A., Macdougall, J. D., Fowles, J., & Yarasheski, K. E. (1997). Effect of glucose supplement timing on protein metabolism after resistance training. Journal of Applied Physiology, 82, 1882-1888.
Roy, B. D., & Tarnopolsky, M. A. (1998). Influence of different macronutrient intakes on muscle glycogen resynthesis after resistance exercise. Journal of Applied Physiology, 72, 1854-1859.
Sasaki, H., Maeda, J., Usui, S., & Ishiko, T. (1987). Effect of sucrose and caffeine ingestion on performance of prolonged strenuous running. International Journal of Sports Medicine, 8, 261-265.
Spindel, E., Arnold, M., Cusack, B., & Wurtman, R. J. (1980). Effects of caffeine on anterior pituitary and thyroid function in the rat. Pharmacology and Experimental Therapeutics, 214, 58-62.
Spriet, L. L., Lindinger, M. I., Mckelvie, R. S., Heigenhauser, G. J., & Jones, N. L. (1989). Muscle glycogenolysis and H1 concentration during maximal intermittent cycling. Journal of Applied Physiology, 66, 8–13.
Stephen, P. B., Tarpenning, K. M., Marino, F. E. (2006). Effects of liquid carbohydrate/essential amino acid ingestion on acute hormonal response during a single bout of resistance exercise in untrained men. Nutrition, 22, 367–375.
Tarpenning, K. M., Wiswell, R. A., & Hawkins, S. A. (2003). CHO-induced blunting of cortisol response to weightlifting exercise in resistance-trained older men. European Journal of Sport Science, 3, 1-10.
Tesch, P. A., Ploutz-Snyder, L. L., Ystrom, L., Castro, M., & Dudley, G. (1998). Skeletal muscle glycogen loss evoked by resistance exercise. Journal of Strength and Conditioning Research, 12, 67–73.
Tipton, K. D., Rassmussen, B. B., Miller, S. L., Wolf, S. E., Petrini, B. E., & Wolef, R. R. et al. (2001). Timing of amino acid-carbohydrate ingestion alters anabolic response of muscle to resistance exercise. American Journal of Physiology, 281, E197-E206.
Van Dam, P. S., Smid, H. E., de Vries, W. R., Niesink, M., Bolscher, E., Waasdorp, E. J., Dieguez, C., Casanueva, F. F., & Koppeschaar, H. P. (2000). Reduction of free fatty acids by acipimox enhances the growth hormone (GH) responses to GH-releasing peptide 2 in elderly men. Journal of Clinical Endocrinology Metabolism, 85, 4706–4711.
Van Loon, L. J. C., Saris, W. H. M., Kruijshoop, M., & Wagenmakers, J. M. (2000a). Maximizing postexercise muscle glycogen synthesis:carbohydrate supplementation and the application of amino acid or protein hydrolysate mixtures. American Journal of Clinical Nutrition, 72, 106-111.
Van Loon, L. J. C., Saris, W. H. M., Verhagen, H., & Wagenmakers, J. M. (2000b). Plasma insulin responses after ingestion of different amino acid or protein mixtures with carbohydrate. American Journal of Clinical Nutrition, 72, 96-105.
Van Loon, L. J. C., Kruijshoop, M., Menheere, P. P., Wagenmakers, J. M., Saris, W. H. M., & Keizer, H. A. (2003). Amino acid ingestion strongly enhances insulin secretion in patients with long-term type2 diabetes. Diabetes Care, 26, 625-630.
Volek, J. S. (2000). General nutritional considerations for strength athletes. Nutrition and the Strength Athlete, C. Jackson (Ed.). Boca Raton, FL: CRC Press, pp: 31-51.
Volek, J. S. (2004). Influence of nutrition on responses to resistance training. Medicine and Science in Sports and Exercise, 36(4), 689-696.
Vollestad, N. K., Tabata, I., & Medbo, J. I. (1992). Glycogen breakdown in different human muscle fibre types during exhaustive exercise of short duration. Acta Physiology Scand, 144, 135–141.
Wells, C. L., Schrader, T. A., & Stern, J. R., et al. (1985). Physiological responses to a 20-mile run under three fluid replacement treatments. Medicine and Science in Sports and Exercise, 17, 364-369.
Williams, A. G., Ismail, A. N., Sharma, A. A., & Jones, D. A. (2002). Effects of resistance exercise volume and nutritional supplementation on anabolic and catabolic hormones. European Journal of Applied Physiology, 86, 315-321.
Willams, M. W. (2005). Nutrition for Health, Fitness, & Sport. New York: McGraw Hill.
Wu, B. H., & Lin, J. C. (2006). The effects of exercise intensity on EPOC and substrate use after resistance exercise. Journal of Exercise Science and Fitness, 4(2), 104-110.