题名

低強度跑步運動結合血流限制對肌肉組織氧飽和度與荷爾蒙的影響

并列篇名

Low-Intensity Running Exercise Combined With Blood Flow Restriction on Muscle Tissue Oxygen Saturation and Hormone Responses

DOI

10.6127/JEPF.202012_(31).0002

作者

陳昀宗(Yun-Tsung Chen);徐孟達(Mong-Da Hsu);謝耀毅(Yao-Yi Hsieh);林正常(Jung-Charng Lin)

关键词

血乳酸 ; 睪固酮 ; 皮質醇 ; 組織氧合指數 ; blood lactate ; testosterone ; cortisol ; tissue oxygenation index

期刊名称

運動生理暨體能學報

卷期/出版年月

31輯(2020 / 12 / 01)

页次

9 - 19

内容语文

繁體中文
中文摘要

目的:探討低強度跑步運動結合血流限制對肌肉組織氧飽和度與荷爾蒙的影響。方法:20名男性耐力型運動員,依據最大攝氧量與訓練經驗配對分組到:(一)跑步運動(50%保留心跳率,3分鐘 × 5組,組間休息1分鐘)結合血流限制組(大腿加壓153.8 mmHg;running exercise combined with blood flow restriction, RE-BFR)、(二)跑步運動無血流限制組(running exercise, RE)。結果:RE-BFR組的運動中組織氧合指數(tissue oxygenation index, TOI)顯著低於RE組(79.3 vs. 93.4%, p < .05),心跳率(160.8 vs. 141.5 bpm, p < .05)與運動自覺量表值(15.8 vs.9.5, p < .05)顯著高於RE組。RE-BFR組的運動後血乳酸(5.3 vs. 1.4 mmol/L, p < .05)顯著高於RE組。此外,RE-BFR組的運動後15分鐘皮質醇濃度顯著高於RE組(p < .05),但睪固酮濃度則無顯著差異。結論:低強度跑步運動結合血流限制,誘發耐力型運動員組織肌肉的低氧反應,促進人體代謝壓力增加,對隨後的同化性荷爾蒙無正面幫助。
英文摘要

Purpose: This study investigated the effects of low-intensity running exercise combined with blood flow restriction (RE-BFR) on muscle tissue oxygen saturation and hormone responses in athletes. Methods: Twenty endurance-trained male athletes were pair-matched by maximal oxygen uptake (VO_2max) and training history, and randomly assigned to either: (1) running exercise (50% heart rate reserve [HRR], 3 min × 5 sets, 1 min rest interval) with BFR (occlusion pressure: 153.8 mmHg) group (RE-BFR), or (2) running exercise (50% HRR) only group (RE). Results: RE-BFR group elicited significantly greater decreases in tissue oxygenation index (TOI; 79.3 vs. 93.4%, p < .05), and increases in heart rate (160.8 vs. 141.5 bpm, p < .05) as well as received perception of exertion (RPE; 15.8 vs. 9.5, p < .05) than RE group during exercise. RE-BFR elicited significant higher in blood lactate (5.3 vs. 1.4 mmol/L, p < .05) than RE group after exercise. Moreover, RE-BFR elicited significant increases in cortisol concentration (p < .05) at 15 min post-exercise, but not in testosterone concentration. Conclusion: Low-intensity running exercise combined with blood flow restriction results in increases in thigh muscle hypoxia and metabolic stress. However it did not present any beneficial effects on anabolic hormone response in endurance athletes.
主题分类 醫藥衛生 > 預防保健與衛生學
醫藥衛生 > 社會醫學
社會科學 > 體育學
参考文献
  1. 陳昀宗,徐孟達,謝耀毅,林正常(2016)。跑步熱身運動結合血流限制對生理反應與運動表現的影響。運動生理暨體能學報,23,1-11。
    連結:
  2. Abe, T.,Kearns, C. F.,Sato, Y.(2006).Muscle size and strength are increased following walk training with restricted venous blood flow from the leg muscle, Kaatsu-walk training.Journal of Applied Physiology,100(5),1460-1466.
  3. Brownlee, K. K.,Moore, A. W.,Hackney, A. C.(2005).Relationship between circulating cortisol and testosterone: Influence of physical exercise.Journal of Sports Science & Medicine,4(1),76-83.
  4. Clark, B. C.,Manini, T. M.,Hoffman, R. L.,Williams, P. S.,Guiler, M. K.,Knutson, M. J.(2011).Relative safety of 4 weeks of blood flow‐restricted resistance exercise in young, healthy adults.Scandinavian Journal of Medicine & Science in Sports,21(5),653-662.
  5. Cook, C. J.,Kilduff, L. P.,Beaven, C. M.(2014).Improving strength and power in trained athletes with 3 weeks of occlusion training.International Journal of Sports Physiology and Performance,9(1),166-172.
  6. Crewther, B.,Cronin, J.,Keogh, J.,Cook, C.(2008).The salivary testosterone and cortisol response to three loading schemes.The Journal of Strength and Conditioning Research,22(1),250-255.
  7. Doerr, P.,Pirke, K. M.(1976).Cortisolinduced suppression of plasma testosterone in normal adult males.The Journal of Clinical Endocrinology & Metabolism,43(3),622-629.
  8. Engel, F.,Härtel, S.,Strahler, J.,Wagner, M. O.,Bös, K.,Sperlich, B.(2014).Hormonal, metabolic, and cardiorespiratory responses of young and adult athletes to a single session of high-intensity cycle exercise.Pediatric Exercise Science,26(4),485-494.
  9. Fujita, S.,Abe, T.,Drummond, M. J.,Cadenas, J. G.,Dreyer, H. C.,Sato, Y.(2007).Blood flow restriction during low-intensity resistance exercise increases S6K1 phosphorylation and muscle protein synthesis.Journal of Applied Physiology,103(3),903-910.
  10. Helgerud, J.,Høydal, K.,Wang, E.,Karlsen, T.,Berg, P.,Bjerkaas, M.(2007).Aerobic high-intensity intervals improve V4O2max more than moderate training.Medicine & Science in Sports & Exercise,39(4),665-671.
  11. Hollander, D. B.,Reeves, G. V.,Clavier, J. D.,Francois, M. R.,Thomas, C.,Kraemer, R. R.(2010).Partial occlusion during resistance exercise alters effort sense and pain.The Journal of Strength and Conditioning Research,24(1),235-243.
  12. Hottenrott, K.,Ludyga, S.,Schulze, S.(2012).Effects of high intensity training and continuous endurance training on aerobic capacity and body composition in recreationally active runners.Journal of Sports Science & Medicine,11(3),483-488.
  13. Kim, E.,Gregg, L. D.,Kim, L.,Sherk, V. D.,Bemben, M. G.,Bemben, D. A.(2014).Hormone responses to an acute bout of low intensity blood flow restricted resistance exercise in college-aged females.Journal of Sports Science & Medicine,13(1),91-96.
  14. Laursen, P. B.,Shing, C. M.,Peake, J. M.,Coombes, J. S.,Jenkins, D. G.(2005).Influence of high-intensity interval training on adaptations in well-trained cyclists.Journal of Strength and Conditioning Research,19(3),527-533.
  15. Milanović, Z.,Sporiš, G.,Weston, M.(2015).Effectiveness of high-intensity interval training (HIIT) and continuous endurance training for V4O2max improvements: A systematic review and meta-analysis of controlled trials.Sports Medicine,45(10),1469-1481.
  16. Nakajima, T.,Kurano, M.,Iida, H.,Takano, H.,Oonuma, H.,Morita, T.(2006).Use and safety of KAATSU training: Results of a national survey.International Journal of KAATSU Training Research,2(1),5-13.
  17. Ozaki, H.,Loenneke, J. P.,Abe, T.(2017).Blood flow‐restricted walking in older women: Does the acute hormonal response associate with muscle hypertrophy?.Clinical Physiology and Functional Imaging,37(4),379-383.
  18. Park, S.,Kim, J. K.,Choi, H. M.,Kim, H. G.,Beekley, M. D.,Nho, H.(2010).Increase in maximal oxygen uptake following 2-week walk training with blood flow occlusion in athletes.European Journal of Applied Physiology,109(4),591-600.
  19. Paton, C. D.,Addis, S. M.,Taylor, L.-A.(2017).The effects of muscle blood flow restriction during running training on measures of aerobic capacity and run time to exhaustion.European Journal of Applied Physiology,117(12),2579-2585.
  20. Patterson, S. D.,Hughes, L.,Warmington, S.,Burr, J.,Scott, B. R.,Owens, J.(2019).Blood flow restriction exercise: Considerations of methodology, application, and safety.Frontiers in Physiology,10,533.
  21. Reeves, G. V.,Kraemer, R. R.,Hollander, D. B.,Clavier, J.,Thomas, C.,Francois, M.(2006).Comparison of hormone responses following light resistance exercise with partial vascular occlusion and moderately difficult resistance exercise without occlusion.Journal of Applied Physiology,101(6),1616-1622.
  22. Rennerfelt, K.,Lindorsson, S.,Brisby, H.,Baranto, A.,Zhang, Q.(2019).Effects of exercise compression stockings on anterior muscle compartment pressure and oxygenation during running: A randomized crossover trial conducted in healthy recreational runners.Sports Medicine,49(9),1465-1473.
  23. Sarkar, S.,Chatterjee, S.,Kr Dey, S.(2019).Effect of 8 weeks high intensity interval training on maximum oxygen uptake capacity and related cardio-respiratory parameters at anaerobic threshold level of Indian male field hockey players.European Journal of Physical Education and Sport Science,5(5),106-116.
  24. Sato, Y.(2005).The history and future of KAATSU training.International Journal of KAATSU Training Research,1(1),11-5.
  25. Suga, T.,Okita, K.,Morita, N.,Yokota, T.,Hirabayashi, K.,Horiuchi, M.(2010).Dose effect on intramuscular metabolic stress during low-intensity resistance exercise with blood flow restriction.Journal of Applied Physiology,108(6),1563-1567.
  26. Takada, S.,Okita, K.,Suga, T.,Omokawa, M.,Morita, N.,Horiuchi, M.(2012).Blood flow restriction exercise in sprinters and endurance runners.Medicine & Science in Sports & Exercise,44(3),413-419.
  27. Takano, H.,Morita, T.,Iida, H.,Asada, K.-I.,Kato, M.,Uno, K.(2005).Hemodynamic and hormonal responses to a short-term low-intensity resistance exercise with the reduction of muscle blood flow.European Journal of Applied Physiology,95(1),65-73.
  28. Takarada, Y.,Sato, Y.,Ishii, N.(2002).Effects of resistance exercise combined with vascular occlusion on muscle function in athletes.European Journal of Applied Physiology,86(4),308-314.
  29. Takarada, Y.,Takazawa, H.,Sato, Y.,Takebayashi, S.,Tanaka, Y.,Ishii, N.(2000).Effects of resistance exercise combined with moderate vascular occlusion on muscular function in humans.Journal of Applied Physiology,88(6),2097-2106.
  30. Tanner, A. V.,Nielsen, B. V.,Allgrove, J.(2014).Salivary and plasma cortisol and testosterone responses to interval and tempo runs and a bodyweight-only circuit session in endurance-trained men.Journal of Sports Sciences,32(7),680-689.
  31. Trapp, E. G.,Chisholm, D. J.,Freund, J.,Boutcher, S. H.(2008).The effects of high-intensity intermittent exercise training on fat loss and fasting insulin levels of young women.International Journal of Obesity,32(4),684-691.
  32. Whyte, L. J.,Gill, J. M. R.,Cathcart, A. J.(2010).Effect of 2 weeks of sprint interval training on health-related outcomes in sedentary overweight/obese men.Metabolism,59(10),1421-1428.
  33. Willis, S. J.,Alvarez, L.,Millet, G. P.,Borrani, F.(2017).Changes in muscle and cerebral deoxygenation and perfusion during repeated sprints in hypoxia to exhaustion.Frontiers in Physiology,8,846.
被引用次数
  1. (2024)。空軍官校學生體測表現與性別、年級間差異分析。興大體育學刊,23,147-163。
print cancel