研究生: |
賴建翰 Lai, Jian-Han |
---|---|
論文名稱: |
漸增式離心運動對交叉重複訓練效應之影響 Contralateral Repeated Bout Effect of Progressive Eccentric Exercise |
指導教授: |
陳忠慶
Chen, Chung-Ching |
學位類別: |
碩士 Master |
系所名稱: |
體育學系 Department of Physical Education |
論文出版年: | 2018 |
畢業學年度: | 106 |
語文別: | 中文 |
論文頁數: | 31 |
中文關鍵詞: | 阻力運動訓練 、最大自主等長收縮肌力 、肌肉酸痛 、關節活動範圍 、肢體圍 |
英文關鍵詞: | resistance training, maximal voluntary isometric contraction strength (MVC), muscle soreness (SOR), range of motion (ROM), circumference (CIR) |
DOI URL: | http://doi.org/10.6345/THE.NTNU.DPE.036.2018.F03 |
論文種類: | 學術論文 |
相關次數: | 點閱:181 下載:0 |
分享至: |
查詢本校圖書館目錄 查詢臺灣博碩士論文知識加值系統 勘誤回報 |
背景: 進行第一回合離心運動(100%EC1)間隔數週休息後,改換成對側相同肌群進行相同一回合離心運動 (100%EC2)時,可以使肌肉損傷明顯比100%EC1變小。然而,目前文獻不清楚人體以某一側肘屈肌群EF)進行五回合漸增離心訓練後,是否也可以有效降低另一側EF進行一回合100%EC引起肌肉損傷的效果。因此,本研究目的針對「人體先以某一側EF先進行五回合漸增強度離心訓練對刺激另一側EF對抗一回合100%EC時,降低引起肌肉損傷之交叉重複訓練效果做探討。方法:以隨機分配方式將 18名無接受訓練之健康成年男子分至控制組與實驗組之中(n=9/組)。控制組以平衡次序先讓某一側EF進行一回合30次100%EC後第7天時,再改換成對側EF進行另一回合30次100%EC;實驗組先以非慣用側EF(ND-EF)接受每週一回合30次連續五週的漸增式離心訓練 (強度:10%-100%EC),間隔休息一週後,再換成慣用側EF(D-EF)進行一回合100%EC。最大等長收縮肌力 (MVC)、關節活動範圍 (ROM)、肢體圍 (CIR) 和肌肉酸痛 (SOR) 在每回合離心運動前至運動後第3或5天進行觀察,並以二因子混合設計變異數分析考驗依變項在組別與時間之間的差異。結果:實驗組ND-EF完成五週離心訓練後,改用D-EF進行一回合100%EC引起的MVC、ROM、CIR和SOR的變化程度都明顯比控制組進行100%EC1與100%EC2來得小(p < .05)。結論:這些研究結果顯示,先讓ND-EF進行5回合漸增離心訓練後,可有效降低D-EF進行一回合100%EC引起肌肉損傷之效果。
關鍵詞: 阻力運動訓練、最大自主等長收縮肌力 (MVC)、肌肉酸痛 (SOR)、關節活動範圍 (ROM)、肢體圍 (CIR)
BACKGROUND: An initial bout of 100% eccentric exercise (100%EC) can significantly attenuate muscle damage following a second bout of the same eccentric exercise (100%EC2) performed with the same muscle group on the opposite side of the body after a few weeks of rest. However, it is currently unclear whether performing five bouts of progressive eccentric exercise with the elbow flexors (EF) before performing one bout of 100%EC with the opposite EF can reduce muscle damage. Thus, the purpose of this study was to investigate whether a contralateral repeated bout effect is manifested after performing five bouts of progressive eccentric exercise with one EF, thus reducing muscle damage caused by one bout of 100%EC with the opposite EF. METHODS: Eighteen untrained healthy men were randomly assigned to control and experimental groups (n=9/group). The control group used one EF to perform a bout of 30 100%EC, before performing a second bout of 30 100%EC with the opposite EF 7 days later. The experimental group used the non-dominant EF (ND-EF) to perform a bout of 30 progressive eccentric training exercises (intensity: 10%-100%EC) once a week for five consecutive weeks, followed 1 week later by a bout of 100%EC with the dominant EF (D-EF). Maximal voluntary isometric contraction strength (MVC), range of motion (ROM), circumference (CIR) and muscle soreness (SOR) were measured before, immediately after, and 3 or 5 days after exercise. Data were compared by repeated-measures of two-way ANOVA, analyzing the differences between group and time of the dependent variables. RESULTS: After the five-week eccentric training with the ND-EF for the experimental group, changes in MVC, ROM, CIR and SOR of the D-EF following one bout of 100%EC were significantly smaller than those of the control group, which performed 100%EC1 and 100%EC2 (p<.05). CONCLUSIONS: These results have shown that five bouts of progressive eccentric training with the ND-EF can effectively reduce the extent of muscle damage caused by one bout of 100% EC with the D-EF.
Keywords: resistance training, maximal voluntary isometric contraction strength (MVC), muscle soreness (SOR), range of motion (ROM), circumference (CIR)
陳忠慶 (2004)。運動引起肌肉損傷的原因之探討。運動生理學暨體能學報,(1),19-32。
陳忠慶、陳信良 (2005)。離心運動對血液肌肉蛋白質評估指標的反應。運動生理學暨 體能學報,(2),1/17。
陳忠慶、陳信良、鍾承融、吳昶潤 (2007)。不同肌力測驗方式對評估離心運動引起肌肉損傷反應的比較。大專體育學刊,9(2),117-129。
陳信良、曾暐晉、黃冠菱、陳忠慶 (2011)。肘屈肌群離心運動引起肌肉損傷對肱動脈血管功能的影響。運動生理暨體能學報,13,33-45。
Armstrong, R. B., Warren, G. L., & Warren, J. A. (1991). Mechanisms of exercise-induced muscle fibre injury. Sports Medicine, 12(3), 184-207.
Byrd, S. K. (1992). Alterations in the sarcoplasmic reticulum: a possible link to exercise-induced muscle damage. Medicine and Science in Sports and Exercise, 24(5), 531-536.
Byrne, C., Twist, C., & Eston, R. (2004). Neuromuscular function after exercise-induced muscle damage. Sports Medicine, 34(1), 49-69.
Chen, H. L., Nosaka, K., & Chen, T. C. (2012). Muscle damage protection by low-intensity eccentric contractions remains for 2 weeks but not 3 weeks. European Journal of Applied Physiology, 112(2), 555-565.
Chen, T. C. (2003). Effects of a second bout of maximal eccentric exercise on muscle damage and electromyographic activity. European Journal of Applied Physiology, 89(2), 115-121.
Chen, T. C., Chen, H. L., Pearce, A. J., & Nosaka, K. (2012). Attenuation of eccentric exercise–induced muscle damage by preconditioning exercises. Medicine and Science in Sports and Exercise, 44(11), 2090-2098.
Chen, T. C. C., Tseng, W. C., Huang, G. L., Chen, H. L., Tseng, K. W., & Nosaka, K. (2017a). Superior effects of eccentric to concentric knee extensor resistance training on physical fitness, insulin sensitivity and lipid profiles of elderly men. Frontiers in Physiology, 8, 209.
Chen, T. C., Chen, H. L., Lin, M. J., Chen, C. H., Pearce, A. J., & Nosaka, K. (2013). Effect of two maximal isometric contractions on eccentric exercise-induced muscle damage of the elbow flexors. European Journal of Applied Physiology, 113(6), 1545-1554.
Chen, T. C., Chen, H. L., Lin, M. J., Wu, C. J., & Nosaka, K. (2009). Muscle damage responses of the elbow flexors to four maximal eccentric exercise bouts performed every 4 weeks. European Journal of Applied Physiology, 106(2), 267-275.
Chen, T. C., Chen, H. L., Lin, M. J., Wu, C. J., & Nosaka, K. (2010). Potent protective effect conferred by four bouts of low-intensity eccentric exercise. Medicine and Science in Sports and Exercise, 42(5), 1004-1012.
Chen, T. C., Chen, H. L., Lin, M. J., Yu, H. I., & Nosaka, K. (2016). Contralateral repeated bout effect of eccentric exercise of the elbow flexors. Medicine and Science in Sports and Exercise, 48(10), 2030-2039.
Chen, T. C., Hsieh, C. C., Tseng, K. W., Ho, C. C., & Nosaka, K. (2017b). Effects of Descending Stair Walking on Health and Fitness of Elderly Obese Women. Medicine and science in sports and exercise, 49(8), 1614-1622.
Chen, T. C., Lin, K. Y., Chen, H. L., Lin, M. J., & Nosaka, K. (2011). Comparison in eccentric exercise-induced muscle damage among four limb muscles. European Journal of Applied Physiology, 111(2), 211-223.
Chen, T. C., Lin, M. J., Chen, H. L., Yu, H. I., & Nosaka, K. (2018). Contralateral repeated bout effect of the knee flexors. Medicine and Science in Sports and Exercise, 50(3), 542-550.
Chen, T. C., Nosaka, K., & Sacco, P. (2007). Intensity of eccentric exercise, shift of optimum angle, and the magnitude of repeated-bout effect. Journal of Applied Physiology, 102(3), 992-999.
Chen, T. C., Tseng, W. C., Huang, G. L., Chen, H. L., Tseng, K. W., & Nosaka, K. (2013). Low-intensity eccentric contractions attenuate muscle damage induced by subsequent maximal eccentric exercise of the knee extensors in the elderly. European Journal of Applied Physiology, 113(4), 1005-1015.
Clarkson, P. M., & Hubal, M. J. (2002). Exercise-induced muscle damage in humans. American Journal of Physical Medicine and Rehabilitation, 81(11), S52-S69.
Clarkson, P. M., Nosaka, K., & Braun, B. (1992). Muscle function after exercise-induced muscle damage and rapid adaptation. Medicine and Science in Sports and Exercise, 24(5), 512-520.
Colomer-Poveda, D., Romero-Arenas, S., Vera-Ibáñez, A., Viñuela-García, M., & Márquez, G. (2017). Effects of 4 weeks of low-load unilateral resistance training, with and without blood flow restriction, on strength, thickness, V wave, and H reflex of the soleus muscle in men. European Journal of Applied Physiology, 117(7), 1339-1347.
Connolly, D. A., Reed, B. V., & McHugh, M. P. (2002). The repeated bout effect: does evidence for a crossover effect exist? Journal of Sports Science and Medicine, 1(3), 80.
Ebbeling, C. B., & Clarkson, P. M. (1989). Exercise-induced muscle damage and adaptation. Sports Medicine, 7(4), 207-234.
Friden, J., Sjöström, M., & Ekblom, B. (1983). Myofibrillar damage following intense eccentric exercise in man. International Journal of Sports Medicine, 4(03), 170-176.
Hortobágyi, T., Hill, J. P., Houmard, J. A., Fraser, D. D., Lambert, N. J., and Israel, R. G. (1996). Adaptive responses to muscle lengthening and shortening in humans. Journal of Applied Physiology, 80(3), 765-772.
Hortobágyi, T., Lambert, N. J., & Hill, J. P. (1997). Greater cross education following training with muscle lengthening than shortening. Medicine and Science in Sports and Exercise, 29(1), 107-112.
Howatson, G., & Van Someren, K. A. (2007). Evidence of a contralateral repeated bout effect after maximal eccentric contractions. European Journal of Applied Physiology, 101(2), 207-214.
Hyldahl, R. D., Chen, T. C., & Nosaka, K. (2017). Mechanisms and mediators of the skeletal muscle repeated bout effect. Exercise and Sport Sciences Reviews, 45(1), 24-33.
Jones, D. A., & Rutherford, O. M. (1987). Human muscle strength training: the effects of three different regimens and the nature of the resultant changes. The Journal of Physiology, 391(1), 1-11.
Komi, P. V., Linnamo, V., Silventoinen, P., & SillanpÄÄ, M. (2000). Force and EMG power spectrum during eccentric and concentric actions. Medicine and Science in Sports and Exercise, 32(10), 1757-1762.
Lastayo, P. C., Reich, T. E., Urquhart, M., Hoppeler, H., & Lindstedt, S. L. (1999). Chronic eccentric exercise: improvements in muscle strength can occur with little demand for oxygen. American Journal of Physiology-Regulatory, Integrative and Comparative Physiology, 276(2), R611-R615.
LaStayo, P., Marcus, R., Dibble, L., Frajacomo, F., & Lindstedt, S. (2013). Eccentric exercise in rehabilitation: safety, feasibility, and application. Journal of Applied Physiology, 116(11), 1426-1434.
Lieber, R. L., & Fridén, J. (2002). Mechanisms of muscle injury gleaned from animal models. American Journal of Physical Medicine and Rehabilitation, 81(11), S70-S79.
McHugh, M. P. (2003). Recent advances in the understanding of the repeated bout effect: the protective effect against muscle damage from a single bout of eccentric exercise. Scandinavian Journal of Medicine and Science in Sports, 13(2), 88-97.
McHugh, M. P., Connolly, D. A., Eston, R. G., & Gleim, G. W. (1999). Exercise-induced muscle damage and potential mechanisms for the repeated bout effect. Sports Medicine, 27(3), 157-170.
Moritani, T., Muramatsu, S., & Muro, M. (1987). Activity of motor units during concentric and eccentric contractions. American Journal of Physical Medicine, 66(6), 338-350.
Newton, M. J., Sacco, P., Chapman, D., & Nosaka, K. (2013). Do dominant and non-dominant arms respond similarly to maximal eccentric exercise of the elbow flexors? Journal of Science and Medicine in Sport, 16(2), 166-171.
Nosaka, K., & Clarkson, P. M. (1996). Variability in serum creatine kinase response after eccentric exercise of the elbow flexors. International Journal of Sports Medicine, 17(02), 120-127.
Nosaka, K., & Newton, M. (2002). Difference in the magnitude of muscle damage between maximal and submaximal eccentric loading. Journal of Strength and Conditioning Research, 16(2), 202-208.
Peake, J., Nosaka, K., & Suzuki, K. (2005). Characterization of inflammatory responses to eccentric exercise in humans. Exercise Immunology Review, 11, 64-85.
Prasartwuth, O., Taylor, J. L., & Gandevia, S. C. (2005). Maximal force, voluntary activation and muscle soreness after eccentric damage to human elbow flexor muscles. The Journal of Physiology, 567(1), 337-348.
Ryan, G. B., & Majno, G. (1977). Acute inflammation. A review. The American Journal of Pathology, 86(1), 183.
Spector, S. A., Gordon, P. L., Feuerstein, I. M., Sivakumar, K., Hurley, B. F., & Dalakas, M. C. (1996). Strength gains without muscle injury after strength training in patients with postpolio muscular atrophy. Muscle and Nerve: Official Journal of the American Association of Electrodiagnostic Medicine, 19(10), 1282-1290.
Warren, G. L., Ingalls, C. P., Lowe, D. A., & Armstrong, R. B. (2001). Excitation-contraction uncoupling: major role in contraction-induced muscle injury. Exercise and Sport Sciences Reviews, 29(2), 82-87.
Xin, L., Hyldahl, R. D., Chipkin, S. R., & Clarkson, P. M. (2013). A contralateral repeated bout effect attenuates induction of NF-κB DNA binding following eccentric exercise. Journal of Applied Physiology, 116(11), 1473-1480.