研究生: |
黃膺喆 Ying-Che Huang |
---|---|
論文名稱: |
腹直肌疲勞對下肢跳躍表現與著地負荷的影響 The impact on lower extremity during jumping and landing after rectus abdominis fatigue |
指導教授: |
張家豪
Chang, Jia-Hao |
學位類別: |
碩士 Master |
系所名稱: |
運動競技學系 Department of Athletic Performance |
論文出版年: | 2013 |
畢業學年度: | 101 |
語文別: | 中文 |
論文頁數: | 74 |
中文關鍵詞: | 核心肌群 、排球 、肌電圖 、關節力矩 |
英文關鍵詞: | core muscles, volleyball, electromyography, joint moment |
論文種類: | 學術論文 |
相關次數: | 點閱:264 下載:34 |
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 |
排球選手在比賽中會有反覆的跳躍著地動作,使下肢承受相當大的負荷。下肢關節疼痛是排球選手常抱怨的運動傷害。從以前的研究得知,核心肌群的穩定在四肢快速移動前扮演極重要的角色。目的:腹直肌疲勞對下蹲跳(CMJ)與扣殺式跳躍(SPJ)的跳躍表現與著地負荷的影響。方法:健康的優秀大專男子排球選手12名。使用三維動作分析系統、測力板與表面肌電收集參與者下蹲跳和扣殺式跳躍時腹直肌與下肢肌群活動的關連性。收集前測資料後,介入腹直肌訓練約10分鐘,並立即收取後測,比較腹直肌疲勞前後的影響。統計使用成對樣本t檢定,顯著水準定為α=.05。結果:腹直肌疲勞後,質心最低位置提高,跳躍最大高度降低。起跳腳踝關節力矩減少,制動腳負荷比率增加。結論:腹直肌疲勞後,選手無法完全下蹲,導致跳躍表現變差;著地時的策略改變,造成制動腳負荷變大。教練可針對選手的核心肌群加強訓練,以增加選手運動表現的穩定度及降低下肢傷害的風險。
Volleyball players have a large number of jumping and landing in a game. It may endure the huge load on the joints of lower extremity. The joint injuries of lower extremity occur most frequently in volleyball players. Based on previous studies, the core muscles was more stable, upper and lower extremity could activate faster. Purpose: To evaluate the changes on lower extremity during jumping and landing in counter-movement jump and spike jump after rectus abdominis fatigue. Methods: 12 male volleyball players in collegiate division I were recruited. 3D motion analysis system, force plates and surface EMG were used to collect the kinematics, kinetics, and muscles activation during jumping and landing in CMJ and SPJ. After CMJ and SPJ test, participants were asked to perform the rectus abdominis training until fatigue. The kinematics, kinetics, and muscles activation in CMJ and SPJ were collected again. The paired sample t-test was used to compare the data before and after training. The significant level was set α=.05. Result: After rectus abdominis fatigued, the COM was higher while squat, and the jumping height was lower. While landing, decrease was found in the ankle moment of jumping leg, and increase of the joint load of breaking leg was noted. Conclusion: The players could not fully squat after rectus abdominis fatigued. It caused the jumping height lower. The load ratio of jumping leg and breaking leg was changed during landing, and caused the load increase of breaking leg. Based on the results from this study, coaches could strengthen the core muscles training for volleyball players to increase stability of performance and reduce the risk of lower extremity injuries.
王國慧、林正常 (2005)。不同膝關節伸展動作範圍等速肌力與下蹲跳表現之相關。運動生理暨體能學報,第二期,159-166頁。
李漢祺(2005)。大學男生軀幹肌群功能檢測與基本運動能力之關係。未出版碩士論文,國立臺北師範學院,臺北市。
林竹茂(1985)。排球跳躍扣球發球之研究。台北市:知音出版社。
林正常、黃勝裕、陳重佑(1999)。蹲距跳與下蹲跳之垂直跳躍指標與等速肌力相關之探討。中華民國體育學會體育學報。第二十七期,91-98頁。
邱俊傑(2004)。彼拉提斯與核心復健運動。台北市:原水。
邱顯濱、蔡葉榮(2008)。排球跳躍發球之運動學分析~以林顯丞選手為例。國立臺北教育大學體育學術研討會。268-273頁。
侯堂盛、楊孟華(2010)。男子排球選手跳躍能力、肌力、敏捷性之分析。嘉大體育健康休閒期刊。九卷三期,198-207頁。
胡林煥、吳智民、陳永祥、董惠美(2007)。優秀排球選手跳躍發球運動學分析-以吳智民為例。大專體育學刊,九卷一期,37-45頁。
施昌政(2006)。八週核心肌力訓練對國中男子籃球選手軀幹力量與基本運動能力之影響。未出版碩士論文,國立體育學院,桃園。
徐煒杰、鄭景峰(2010)。單次不同振幅全身振動運動對下肢爆發力的影響。體育學報。四十三卷一期,1-12頁。
孫敏欲(2008)。核心肌群訓練對學童基本運動能力之影響。未出版之碩士論文。
許樹淵(1997)。運動生物力學。台北市:合記圖書出版社。
許太彥、游竣宇(2011)。穿戴髕腱加壓帶對著地生物力學參數之影響。屏東教大體育學報。第十四期,303-316頁。
張英智、黃長福、趙國斌(1994)。三個不同高度著地動作的生物力學分析。中華民國體育學會體育學報。第十八期,195-206 頁。
陳天文、潘寶如、蔡慧敏 (2008)。肌力平衡與運動傷害。淡江體育,第十一期,103-108頁。
董金龍、相子元(1999)。膝關節傷害對活動度的影響。國立體育學院論叢,九卷二期,243-250頁。
葉煌典(1982)。排球扣球動作的研析。台北:驚聲出版社。
楊總成、劉宗德 (2001)。排球選手彈跳能力的探討。淡江體育,第四期,74-78頁。
鄭芳梵 (1981)。排球訓練法。台北市:台北體專。
廖德秦(2001)。我國青年男子排球選手鄭友裕跳躍發球動作之運動學分析。國立體育學院論叢,十一卷二期,123-137頁。
蔡崇濱 (1993)。等速運動對大專排球選手大腿肌群功能與專項跳躍能力之效果研究。臺南:供學出版社。
謝耀毅 (2011)。男女排球選手扣球落地之生物力學分析。未出版之碩士論文。
顏政通、高俊傑(2007)。排球運動中下肢關節著地動作之探究。排球教練科學。第十期,15-20頁。
蘇金鵬、江杰穎、林晉利(2008)。核心穩定肌群與功能性訓練對不同運動的重要性。北體學報。第十六期,117-125頁。
Abt, J. P., Smoliga, J. M., Brick, M. J., Jolly, J. T., Lephart, S. M., & Fu, F.H. (2007). Relationship between cycling mechanics and core stability. Journal of Strength and Conditioning Research, 21(4), 1300-1304.
A. G. Cresswell. (1993). Responses of intra-abdominal pressure and abdominal muscle activity during dynamic trunk loading in man. European Journal of Applied Physiology and Occupational Physiology. 66(4), 315-320.
B. Bigland-Ritchie, J. J. Woods. (1984). Changes in muscle contractile properties and neural control during human muscular fatigue. Muscle & Nerve. 7(9), 691-699.
Buttelli O., Seek D., Vandewalle H., Jouanin J., & Monod H. (1996). Effect of fatique On maximal torque during short exhausting cycling. European Journal of Applied Physiology. 73, 175-179.
Campney HK, Wehr RW. (1965). Significance of strength variation through a range of joint motion. Physical Therapy. 45, 773-779.
Caruso, John; Hari; Leeper, Adam; Coday, Michael; Monda, Julie; Ramey, Elizabeth; Hastings, Lori; Golden, Mallory; Davison, Steve. (2009). Impact of acceleration on blood lactate values derived from high-speed resistance exercise. Journal of Strength & Conditioning Research. 23(7), 2009-2014.
Cleland, J., Schulte, C., & Durall, C. (2002). The role of therapeutic exercise in treating instability-related lumbar spine pain: A systematic review. Journal of Back and Musculoskeletal Rehabilitation, 16, 105-115.
Dufek. S., Bates B. T. (1991). Biomechanical factor associated with injury during landing in jump sports. Sports Medicine. 12(5), 326-337.
Efthimios Kioumourtzoglou, Maria Michalopoulou, George Tzetzis, and Thomas Kourtessis (2000). Ability profile of the elite volleyball player. Perceptual and Motor Skills. 90, 757-770.
Gary Kamen, David A. Gabriel. (2010). Essentials of electromyography. USA: Human Kinetics.
Gerberich, Susan Goodwin. (1987). Analysis of severe injuries associated with volleyball activities. Physician and Sports medicine. 15(8), 75-79.
Houtz SJ, Lebow MJ, Beyer FR. (1957). Effect of posture on strength of the knee flexor and extensor muscles. Journal of Applied Physics. 2, 475-480.
Jens Bojsen-Møller, S. Peter Magnusson, Lars Raundahl Rasmussen, Michael Kjaer, and Per Aagaard. (2005). Muscle performance during maximal isometric and dynamic contractions is influenced by the stiffness of the tendinous structures. Journal of Applied Physiology. 99(3), 986-994.
Johnston, R. B., Ⅲ, Howard, M. E., Cawley, P. W., & Losse, G. M. (1998). Effect of lower extremity musclarfatigue on motor control performance. Medicine & Science in Sports & Exercise, 30(12), 1703-1707.
Jonsson P., Alfredson H.. (2005). Superior results with eccentric compared to concentric quadriceps training in patients with jumper’s knee: a prospective randomized study. British Journal of Sports Medicine. 39, 847–850.
J. G. M. Beltman, A. J. Sargeant, D. Ball, C. N. Maganaris, A. de Haan. (2003). Effect of antagonist muscle fatigue on knee extension torque. Pflügers Archiv. 446(6), 735-741.
Kazumi Masudaa, Tadashi Masudab, Tsugutake Sadoyamac, Mitsuharu Inakid, Shigeru Katsutae. (1999). Changes in surface EMG parameters during static and dynamic fatiguing contractions. Journal of Electromyography and Kinesiology. 9(1), 39-46.
K Sewright, DW Martens, RS Axtell. (2004). Effects of six weeks of pilates mat training on tennis serve velocity, muscular endurance, and their relationship in collegiate tennis players. Medicine and Science in Sports and Exercise. 36(5), 167-177.
Lian O, Engebretsen L, Bahr R. (2005). Prevalence of jumper’s knee among elite athletes from different sports: a cross-sectional study. The American Journal of Sports Medicine. 33, 561-567.
Liemobn, W. & Pariser, G. (2002). Core strengthening: Implications for Fitness and Low Back Pain. Acsm's Health and Fitness Journal. 6 (5), 10-16.
Manuel Monfort-Pañego, Francisco J. Vera-García, Daniel Sánchez-Zuriaga, and Maria Ángeles Sarti-Martínez. (2009). Electromyographic studies in abdominal exercises: a literature synthesis. Journal of Manipulative and Physiological Therapeutics. 32(3), 232-244.
McNitt-Gray, J.L., Yokoi, T., Millward, C. (1994). Landing strategies used by gymnasts on different surfaces. Journal of Applied Biomechanics. 10(3), 237–252.
Michael J. Decker, Michael R. Torry, Douglas J. Wyland, William I. Sterett, J. Richard Steadman. (2003). Gender differences in lower extremity kinematics, kinetics and energy absorption during landing. Clinical Biomechanics. 18, 662-669.
M. Bilodeau, S. Schindler-Ivens, D.M. Williams, R. Chandran, S.S. Sharma. (2003). EMG frequency content changes with increasing force and during fatigue in the quadriceps femoris muscle of men and women. Journal of Electromyography and Kinesiology. 13(1), 83-92.
Nadler, S. F., Moley, P., Malanga, G. A., Rubbani, M., Prybicien, M., & Feinberg, J. H. (2002). Functional deficits in athletes with a history of low back pain: a pilot study. Archives of Physical Medicine and Rehabilitation, 83 (12), 1753-1758.
Peter Konrad. (2005). The ABC of EMG. A Practical Introduction to Kinesiological Electromyography.
Reeser J. C., Verhagen E., Briner W. W., Askeland T. I., Bahr R.. (2006). Strategies for the prevention of volleyball related injuries. British Journal of Sports Medicine. 40, 594-600.
Richardson, C., Jull, G., Hodges, P., & Hides, J. (1999). Therapeutic exercise for spinal segmental stabilization in low back pain. Churchill Livingstones, Edinburgh.
R W Bisseling, A L Hof, S W Bredeweg, J Zwerver, T Mulder. (2008). Are the take-off and landing phase dynamics of the volleyball spike jump related to patellar tendinopathy?. British Journal of Sports Medicine. 42, 483-489.
Scott M. Lephart, Cheryl M. Ferris, Bryan L. Riemann, Joseph B. Myers, and Freddie H. Fu. (2002) Gender differences in strength and lower extremity kinematics during landing. Clinical Orthopaedics and Related Research. 401, pp. 162.169.
Slobodan Jarić, Saša Radovanović, Sladjan Milanović, Miloš Ljubisavljević, Radmila Anastasijević. (1997). A comparison of the effects of agonist and antagonist muscle fatigue on performance of rapid movements. European Journal of Applied Physiology and Occupational Physiology. 76(1), 41-47.
Sommer H.M.. (1988). Patellar chondropathy and apicitis, and muscle imbalances of the lower extremities in competitive sports. Sports Med. 5:386–94.
Timothy E. Hewett, Amanda L. Stroupe, Thomas A. Nance and Frank R. Noyes (1996) . Plyometric Training in Female Athletes: Decreased Impact Forces and Increased Hamstring Torques. Sports Medicine. 24:765-773.
Visnes H, Hoksrud A, Cook J, et al. (2005). No effect of eccentric training on jumper’s knee in volleyball players during the competitive season: a randomized clinical trial. Clinical Journal of Sport Medicine. 15:227–34
Walsh M, Arampatzis A, Schade F, Brüggemann GP. (2004). The effect of drop jump starting height and contact time on power, work performed, and moment of force. Journal of Strength and Conditioning Research / National Strength & Conditioning Association. 18(3):561-566.
Young M. A., Cook J. L., Purdam C.R., et al. (2005). Eccentric decline squat protocol offers superior results at 12 months compared with traditional eccentric protocol forpatellar tendinopathy in volleyball players. British Journal of Sports Medicine. 39:102–5.
Zhang, S.N., Bates, B.T., Dufek, J.S. (2000). Contributions of lowerextremity joints to energy dissipation during landings. Medicine & Science in Sports & Exercise. 32, 812–819.