题名

血流限制搭配低強度耐力訓練對肌肉與心肺適能影響之探討

并列篇名

Effects of low intensity endurance training combined with blood flow restriction on muscular and aerobic fitness

DOI

10.3966/102473002018063202006

作者

林珏生(Yu-Sheng Lin);許文彥(Wen-Yen Hsu);鄭景峰(Ching-Feng Cheng)

关键词

加壓訓練 ; 健康促進 ; 肌肉量 ; 運動處方 ; occlusion training ; health promotion ; muscle volume ; exercise prescription

期刊名称

中華體育季刊

卷期/出版年月

32卷2期(2018 / 06 / 01)

页次

139 - 149

内容语文

繁體中文
中文摘要

血流限制(blood flow restriction, BFR)搭配低強度耐力訓練,除了能促進肌肉適能之外,亦可改善有氧適能,例如最大攝氧量。對於體能水準較差者,BFR訓練或許能作為代替傳統強度較高的訓練方式。本文透過文獻整理的方式,針對BFR搭配低強度耐力訓練,對於健康成人及中高齡族群之肌肉與心肺適能的影響,以及BFR訓練可能引起的生理機制進行探討。2至10週的BFR訓練(約24-40堂訓練課、強度約3-6 km/h、運動10-20 min、加壓160-200 mmHg),可能有助於引起心血管系統的訓練適應,造成肌肉內代謝壓力的提升,進而有助於改善個體之肌肉量約4%、最大肌力約13%,以及心肺適能約6%。
英文摘要

The low-intensity endurance training combined with blood flow restriction (BFR) could improve muscular fitness and aerobic fitness, such as maximal oxygen uptake. For the unfit individuals, BFR training can be an appropriate alternative for the traditional high intensity training. The purpose of this study was to investigate the effects of low-intensity endurance training with BFR on the muscular and cardiorespiratory fitness in healthy adults and middle-aged population, and the possible physiological mechanisms induced by BFR training through reviewing previous literatures. The 2-10 weeks of low intensity endurance training combined with BFR (24-40 sessions, 3-6 km/h, 10-20 min of exercise duration, and occlusion pressure set at 160-200 mmHg) might increase the intramuscular metabolic stress during exercise session, thus resulting in training adaptations of cardiovascular system, and improve muscle mass (~4%), muscular strength (~13%), and cardiorespiratory fitness (~6%).
主题分类 社會科學 > 體育學
参考文献
  1. Abe, T.,Fujita, S.,Nakajima, T.,Sakamaki, M.,Ozaki, H.,Ogasawara, R.,Ishii, N.(2010).Effects of low-intensity cycle training with restricted leg blood flow on thigh muscle volume and VO2MAX in young men.Journal of Sports Science and Medicine,9(3),452-458.
  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. Abe, T.,Sakamaki, M.,Fujita, S.,Ozaki, H.,Sugaya, M.,Sato, Y.,Nakajima, T.(2010).Effects of low-intensity walk training with restricted leg blood flow on muscle strength and aerobic capacity in older adults.Journal of Geriatric Physical Therapy,33(1),34-40.
  4. Blair, S. N.,Kohl, H. W., Ⅲ.,Paffenbarger, R. S., Jr.,Clark, D. G.,Cooper, K. H.,Gibbons, L. W.(1999).Physical fitness and all-cause mortality: a prospective study of healthy men and women.The Journal of the American Medical Association,262(17),2395-2401.
  5. Clarkson, M. J.,Conway, L.,Warmington, S. A.(2017).Blood flow restriction walking and physical function in older adults: A randomized control trial.Journal of Science and Medicine in Sport,20(12),1041-1046.
  6. Deschenes, M. R.(2004).Effects of aging on muscle fibre type and size.Sports Medicine,34(12),809-824.
  7. Enright, P. L.,McBurnie, M. A.,Bittner, V.,Tracy, R. P.,McNamara, R.,Arnold, A.,Newman, A. B.(2003).The 6-min walk test: A quick measure of functional status in elderly adults.Chest,123(2),387-398.
  8. Fujita, S.,Abe, T.,Drummond, M. J.,Cadenas, J. G.,Dreyer, H. C.,Sato, Y.,Rasmussen, B. B.(2007).Blood flow restriction during low-intensity resistance exercise increases S6K1 phosphorylation and muscle protein synthesis.Journal of Applied Physiology,103(3),903-910.
  9. Garber, C. E.,Blissmer, B.,Deschenes, M. R.,Franklin, B. A.,Lamonte, M. J.,Lee, I. M.,Swain, D. P.(2011).Quantity and quality of exercise for developing and maintaining cardiorespiratory, musculoskeletal, and neuromotor fitness in apparently healthy adults: guidance for prescribing exercise.Medicine and Science in Sports and Exercise,43(7),1334-1359.
  10. Gist, N. H.,Fedewa, M. V.,Dishman, R. K.,Cureton, K. J.(2014).Sprint interval training effects on aerobic capacity: A systematic review and meta-analysis.Sports Medicine,44(2),269-279.
  11. Haykowsky, M. J.,Findlay, J. M.,Ignaszewski, A. P.(1996).Aneurysmal subarachnoid hemorrhage associated with weight training: Three case reports.Clinical Journal of Sport Medicine,6(1),52-55.
  12. Hughes, L.,Paton, B.,Rosenblatt, B.,Gissane, C.,Patterson, S. D.(2017).Blood flow restriction training in clinical musculoskeletal rehabilitation: A systematic review and meta-analysis.British Journal of Sports Medicine,51(13),1003-1011.
  13. Kim, D.,Singh, H.,Loenneke, J. P.,Thiebaud, R. S.,Fahs, C. A.,Rossow, L. M.,Bemben, M. G.(2016).Comparative effects of vigorous-intensity and low-intensity blood flow restricted cycle training and detraining on muscle mass, strength, and aerobic capacity.Journal of Strength and Conditioning Research,30(5),1453-1461.
  14. Kraemer, W. J.,Ratamess, N. A.(2004).Fundamentals of resistance training: Progression and exercise prescription.Medicine and Science in Sports and Exercise,36(4),674-688.
  15. Loenneke, J. P.,Fahs, C. A.,Rossow, L. M.,Abe, T.,Bemben, M. G.(2012).The anabolic benefits of venous blood flow restriction training may be induced by muscle cell swelling.Medical Hypotheses,78(1),151-154.
  16. Manimmanakorn, A.,Hamlin, M. J.,Ross, J. J.,Taylor, R.,Manimmanakorn, N.(2013).Effects of low-load resistance training combined with blood flow restriction or hypoxia on muscle function and performance in netball athletes.Journal of Science and Medicine in Sport,16(4),337-42.
  17. Manini, T. M.,Clark, B. C.(2009).Blood flow restricted exercise and skeletal muscle health.Exercise and Sport Sciences Reviews,37(2),78-85.
  18. Mattar, M. A.,Gualano, B.,Perandini, L. A.,Shinjo, S. K.,Lima, F. R.,Sá-Pinto, A. L.,Roschel, H.(2014).Safety and possible effects of low-intensity resistance training associated with partial blood flow restriction in polymyositis and dermatomyositis.Arthritis Research and Therapy,16(5),473.
  19. Milanović, Z.,Sporiš, G.,Weston, M.(2015).Effectiveness of high-intensity interval training (HIT) and continuous endurance training for VO2max improvements: A systematic review and meta-analysis of controlled trials.Sports Medicine,45(10),1469-1481.
  20. Ozaki, H.,Miyachi, M.,Nakajima, T.,Abe, T.(2011).Effects of 10 weeks walk training with leg blood flow reduction on carotid arterial compliance and muscle size in the elderly adults.Angiology,62(1),81-86.
  21. Ozaki, H.,Sakamaki, M.,Yasuda, T.,Fujita, S.,Ogasawara, R.,Sugaya, M.,Abe, T.(2011).Increases in thigh muscle volume and strength by walk training with leg blood flow reduction in older participants.The Journals of Gerontology Series A: Biological Sciences and Medical Sciences,66(3),257-263.
  22. 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.
  23. Pour, M. B.,Joukar, S.,Hovanloo, F.,Najafipour, H.,Naderi, V.,Raji, A.,Esmaeili-Mahani, S.(2018).Mild aerobic training with blood flow restriction increases the hypertrophy index and MuSK in both slow and fast muscles of old rats: Role of PGC-1α.Life Sciences,202,103-109.
  24. Reeves, G. V.,Kraemer, R. R.,Hollander, D. B.,Clavier, J.,Thomas, C.,Francois, M.,Castracane, V. D.(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.
  25. Sakamaki, M.,Bemben, M.G.,Abe, T.(2011).Legs and trunk muscle hypertrophy following walk training with restricted leg muscle blood flow.Journal of Sports Science and Medicine,10(2),338-340.
  26. Sawai, S.,Sanematsu, H.,Kanehisa, H.,Tsunoda, N.,Fukunaga, T.(2004).Evaluation of muscle activity level in daily actions.Japanese Journal of Physical Fitness and Sports Medicine,53,93-106.
  27. Slysz, J.,Stultz, J.,Burr, J. F.(2016).The efficacy of blood flow restricted exercise: A systematic review & meta-analysis.Journal of Science and Medicine in Sport,19(8),669-675.
  28. Sundberg, C. J.(1994).Exercise and training during graded ischaemia in healthy man with special reference to effects on skeletal muscle.Acta Physiologica Scandinavica. Supplementum,615,1-50.
  29. Takano, H.,Morita, T.,Iida, H.,Asada, K.,Kato, M.,Uno, K.,Nakajima, T.(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.
  30. Vechin, F. C.,Libardi, C. A.,Conceição, M. S.,Damas, F. R.,Lixandrão, M. E.,Berton, R. P.,Ugrinowitsch, C.(2015).Comparisons between low-intensity resistance training with blood flow restriction and high-intensity resistance training on quadriceps muscle mass and strength in elderly.Journal of Strength and Conditioning Research,29(4),1071-1076.
  31. Wenger, H. A.,Bell, G. J.(1986).The interactions of intensity, frequency and duration of exercise training in altering cardiorespiratory fitness.Sports Medicine,3(5),346-356.
print cancel