研究生: |
謝耀毅 Hsieh, Yao-Yi |
---|---|
論文名稱: |
不同移位步法對男女排球選手攔網著地之影響 The Effects of Different Steps and Gender on Volleyball Block Landing |
指導教授: |
黃長福
Huang, Chen-Fu |
學位類別: |
博士 Doctor |
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: | 76 |
中文關鍵詞: | 性別 、併步 、跨步 |
英文關鍵詞: | Gender, slide step, cross over step |
DOI URL: | http://doi.org/10.6345/DIS.NTNU.DPE.053.2018.F03 |
論文種類: | 學術論文 |
相關次數: | 點閱:148 下載:26 |
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 |
前言:攔網在排球競賽中扮演著攻守兼具的重要角色,且攔網前常會進行側向不同步法的位移,在比賽和訓練中頻繁的攔網著地動作容易造成下肢傷害,因此有效的減緩衝擊是十分的重要。本研究目的:藉由收集攔網著地動作的運動學及動力學參數,以探討女性和男性在執行不同步法攔網著地動作上的差異。方法:本研究以8名女性及8名男性為研究對象,利用八台Vicon紅外線攝影機 (250Hz)、兩塊測力板 (1000Hz) 收集不同步法攔網著地之運動學及動力學的資料,並以混合設計二因子變異數分析進行資料處理。結果:跨步攔網著地相較於併步攔網著地會呈現較大的垂直與前後的地面反作用力;在著地瞬間會呈現較小的踝關節蹠屈角度、較大的膝關節內收力矩,在著地期間會呈現較小的踝關節活動範圍、較大的最大膝關節外翻角度、最大髖關節伸肌力矩、最大踝關節蹠屈肌力矩,而在最大垂直地面反作用力瞬間會呈現較小的膝關節屈曲角度、較大的髖關節伸肌力矩。女性相較於男性在著地瞬間會呈現較大的踝關節蹠屈角度,在著地期間會呈現較大的踝關節活動範圍、較小的最大髖關節伸肌力矩,而在最大垂直地面反作用力瞬間會呈現較大的膝關節外翻角度。在男性中,跨步攔網相較併步攔網會呈現較大的髖關節活動範圍、最大膝關節伸肌力矩、著地瞬間髖關節內收力矩、最大髖關節外展力矩;而在女性中,跨步攔網相較併步攔網著地呈現較大的最大膝關節內收力矩;在跨步攔網中,男性相較於女性呈現較大的最大膝關節伸肌力、著地瞬間髖關節內收力矩、最大髖關節外展力矩。結論:跨步攔網著地動作會增加膝關節的負荷,女性在執行攔網著地動作會利用較多踝關節活動進行著地的緩衝,但較大的膝關節外翻角度會提高下肢膝關節受傷的機會。
Block is an important skill in the volleyball competition, it is not only a defensive
skill, but an offensive skill. Many volleyball players perform the different steps before block. The frequently landing movement in volleyball training and competition may increase the risk of lower extremity injuries. Therefore, it was important of reducing the ground impact more efficiently during landing. Purpose:The aim of this study was to investigate the the kinematics and kinetics difference in the gender while performing block landing after different steps. Method:Eight females and eight males were recruited from the university volleyball team. eight Vicon cameras (250Hz) and two force plates (1000Hz) were synchronized to collect kinematics and kinetics data during block landing after different steps. Result:Cross over step block landing exhibited greater vertical and anterior-posterior ground reaction forces. Cross over step block landing exhibited smaller ankle plantarflexion angle, greater knee adductor moment at the initial ground contact. During the landing phase, cross over step block landing exhibited smaller ankle range of motion (ROM) and greater peak knee valgus angle. Knee flexion angle was smaller in cross over step block landing at the time of peak vertical ground reaction force (PVGRF). Females exhibited greater ankle plantarflexion angle than males. During the landing phase, females exhibited greater ankle ROM and smaller peak hip extensor moment. Knee valgus angle was greater in females at the time of PVGRF. In the males, cross over step block landing exhibited greater hip ROM and knee extensor moment. In the females, cross over step block landing exhibited greater knee adductor moment。Conclusion:Cross over step block landing could increase the loading on the knee. Females utilized ankle motion to reduce more ground impact during block landing. However the greater knee valgus angle in females might cause increase the risk of injury on the knee.
李建平 (2011)。特優級排球競賽中防守反擊績效之研究。體育學報,44(1),145-162。
陳和章 (1985)。六人制排球攔網技術理論與應用之研究。精華出版社,26-27。
張弓弘 (1993)。大專排球聯賽選手運動傷害調查與研究。中華排球,60,65-73。
張恩崇 (2005)。2005年世界大學運動會女子排球比賽得分因素與比賽成績關聯研究。大專體育學刊,9(2),51-63。
葉煌典 (1982)。排球扣球動作的研析。台北:驚聲。
楊振興 (2002)。對排球各種移動步伐之初步探析。大專排球研究論文集,8,153-159 。
歐陽金樹 (1995)。排球運動傷害處理與預防。大專排球研究論集,2,171-177。
Aagaard, H., Scavenius, M. & Jorgensen, U. (1997). An epidemiological analysis of the injury pattern in indoor and in beach volleyball. International Journal of Sports Medicine, 18, 217-221.
Arendt, E., & Dick, R., (1995). Knee injury patterns among men and women in collegiate basketball and soccer. NCAA data and review of literature. American Journal of Sports Medicine, 23(6), 694-701.
Briner, W. W., & Kacmar, L. (1997). Common injuries in volleyball. Sports Medicine, 24(1), 67-71.
Bisseling, R. W., Hof, A. L., Bredeweg, S. W., Zwerver, J., & Mulder, T. (2007). Relationship between landing strategy and patellar tendinopathy in volleyball. British Journal of Sports Medicine, 41(7), e8.
Chappell, D. J., Yu, B., Kirkendall, D. T., & Garrett,W. E. (2002). A comparison of knee kinetics between male and female recreational athletes in stop-jump tasks. American Journal of Sports Medicine, 30, 261-267.
Cheng, Y. L., Mao, D. W., Fong, T. P., & Hong, Y. L. (2005). Comparison of landing maneuvers between skillful and unskillful female volleyball players. ISBS, 696-698.
Colby, S., Francisco, A., Yu, B., Kirkendall, D., Finch, M., & Garrett, W. (2000). Electromyographic and kinematic analysis of cutting maneuvers. Implications for anterior cruciate ligament injury. American Journal of Sports Medicine. 28(2), 234-240.
Cortes, N., Morrison, S., Van Lunen, B. L., & Onate, J. A. (2012). Landing technique affects knee loading and position during athletic tasks. Journal of Science and Medicine in Sport. 15, 175-181.
De Britto, M. A., Carpes, F. P., Koutras, G., & Pappas, E. (2014). Quadriceps and hamstrings prelanding myoelectric activity during landing from different heights among male and female athletes. Journal of Electromyography and Kinesiology. 24(4), 508-512.
Devita, P., & Skelly, WA. (1992). Effect of landing stiffness on joint kinetics and energetics in the lower extremity. Medicine and Science in Sports and Exercise, 24(1), 108-115.
Dufek, S., & Bates, B. T. (1991). Biomechanical factor associated with injury during landing in jump sports. Sports Medicine, 12(5), 326-337.
Decker, M. J., Torry, M. R., Wyland, D. J., Sterett, W. I., & Steadman. (2003). Gender differences in lower extremity kinematics, kinetics and energy absorption during landing. Clinical Biomechanics, 18, 662-669.
Dufek, J. S. & Zhang, S. (1996). Landing models for volleyball players: A longitudinal evaluation. Journal of Sports Medicine and Physical Fitness, 36, 35-42.
Ford, K. R., Myer, G. D., & Hewett, T. E. (2003). Valgus Knee Motion during Landing in High School Female and Male Basketball Players. Medicine & Science in Sports & Exercise, 35(10), 1745-1750.
Ford, K. R., Myer, G. D., Smith, R. L., Vianello, R. M., Seiwert, S. L., & Hewett, T. E. (2006). A comparison of dynamic coronal plane excursion between matched male and female athletes when performing single leg landings. Clinical Biomechanics, 21, 33–40.
Ferretti, A., Papandrea, P., Conteduca, F., & Mariani P. P. (1992). Knee ligament injuries in volleyball players. The American Journal of Sports Medicine, 20(2), 203-207.
Freedman, K. B., Glasgow, M. T., Glasgow, S. G., & Bernstein, J. (1998). Anterior Cruciate Ligament Injury and Reconstruction Among University Students. Clinical Orthopaedics and Related Research, 356, 208-212.
Gerberich, S. G. (1987). Analysis of severe injury associated with volleyball activities. Physical and Sports Medicine, 15(8), 75-79.
Hewett, T. E., Myer, G. D., Ford, K. R., Heidt, R. S., Colosimo, A. J., & McLean, S. G. (2005). Biomechanical measures of neuromuscular control and valgus loading of the knee predict anterior cruciate ligament injury risk in female athletes: a prospective study. American Journal of Sports Medicine, 33(4), 492-501.
Hewett, T. E., Ford, K. R., Hoogenboom, B. J., & Myer, G. D. (2010). Understanding and preventing ACL injuries: current biomechanical and epidemiologic considerations - update 2010. North American Journal of Sports Physical Therapy, 5(4), 234-51.
Hirokawa, S., Solomonow, M., Luo, Z., Lu, Y., & D’Ambrosia, R. (1991). Muscular co-contraction and control of knee stability. Journal of Electromyogr Kinesiol, 1(3), 199-208.
Hughes, G., Watkins, J., & Owen, N. (2008). Gender differences in lower limb frontal plane kinematics. Sport Biomechanics, 7(3), 333-341.
Hughes, G., Watkins, J., & Owen, N. (2010). Differences between the sexes in knee kinetics during landing from volleyball block jumps. European Journal of Sport Science, 10(1), 1-11.
Hughes, G., Watkins, J., & Owen, N. (2010). The Effects of Opposition and Gender on Knee Kinematics and Ground Reaction Force During Landing From Volleyball Block Jumps. Research Quarterly for Exercise and Sport, 81(4), 384-391.
Huston, L.J., Vibert, B., Ashton-Miller, J. A., & Wojtys, E. M. (2001). Gender differences in knee angle when landing from a drop-jump. American Journal of Knee Surgery, 14(2), 215–220.
Ireland, M. L., Balantyne, B. T., Little, K., & McClay, I. S. (2001). A radiographic analysis of the relationship between the size and shape of the intercondylar notch and anterior cruciate ligament injury. Knee Surgery, Sports Traumatology, Arthroscopy, 9(4), 200-205.
Kernozek, T. W., Torry, M. R., Hoof, H. V., Cowley, H., & Tanner, S. (2005). Gender differences in frontal plane and sagittal plane biomechanics during drop landings. Medicine and Science in Sports and Exercise, 37(6), 1003-1012.
Lephart, S. M., Ferris, C. M., Riemann, B. L., Myers, J. B., & Fu, F. H. (2002). Gender Differences in Strength and Lower Extremity Kinematics During Landing. Clinical Orthopaedics & Related Research, 140, 162-169.
Lobietti, R. (2009). A review of blocking in volleyball: from the notational analysis to biomechanics. Journal of Human Sport and Exercise, 4(2), 93-99.
Lobietti, R., Fantozzi, S., Stagni, R., & Merni, F. (2006). Kinematics analysis of landing from volleyball spike followed by block: A pilot study. Gait & Posture, 24(1), 47-48.
Lobietti, R., & Merni, F. (2006). Blocking footwork techniques used by male and female volleyball players are different. Journal of Human Movement Studies, 51(5),307-320.
Lobietti, R., Fantozzi, S., Stagni, R., & Merni, F. (2008). Kinematics analysis of landing from volleyball block. Gait & Posture, 28(1), 19.
Mcnitt-Gray, J. L. (1991). Kinematics and impulse characteristics of drop landings from three heights. International journal of sport biomechanics, 7, 201-224.
Marquez, W. Q., Masumura, M., & Ae, M. (2009). The effects of jumping distance on the landing mechanics after a volleyball spike. Sports Biomechanics, 8(2),154-166.
Pappas, E., Hagins, M., Sheikhzadeh, A., Nordin, M., & Rose, D. (2007). Biomechanical differences between unilateral and bilateral landings from a jump: gender differences. Clinical Journal of Sport Medicine, 17(4), 263-268.
Pappas E., Zampeli F., Xergia S., & Georgoulis A. (2013). Lessons learned from the last 20 years of ACL-related in vivo-biomechanics research of the knee joint. Knee Surg Sports Traumatol Arthrosc. 21, 755-766.
Rozzi, S.L., Lephart, S. M., Gear, W. S., & Fu, F. H. (1999). Knee joint laxity and neuromuscular characteristics of male and female soccer and basketball players. The American Journal of Sports Medicine. 27(3), 312-319.
Ruiz, A. L., Kelly, M., & Nutton, R. W. (2002). Arthroscopic ACL reconstruction: a 5-9 year follow-up. Knee, 9(3), 197-200.
Salci, Y., Kentel, B. B., Heycan, C., Akin, S., & Korkusuz, F. (2004). Comparison of landing maneuvers between male and female college volleyball players. Clinical Biomechanics, 19, 622-628.
Schmitz, R. J., Kulas, A. S., Perrin, D. H., & Riemann, B. L. (2007). Sex differences in lower extremity biomechanics during single leg landings. Clinical Biomechanics, 22(6), 681-688.
Shambaugh, J. P., Klein, A., & Herbert, J. H. (1991). Structural measures as predictors of injury in basketball players. Medicine and Science in Sports and Exercise, 23(5), 522-527.
Stearns, K. M., & Pollard, C. D. (2013). Abnormal frontal plane knee mechanics during sidestep cutting in female soccer athletes after anterior cruciate ligament reconstruction and return to sport. American Journal of Sports Medicine, xx, x.
Tillman, M. D., Criss, R. M., Brunt, D., & Hass, C. J. (2004). Landing constraints influence ground reaction forces and lower extremity EMG in female volleyball players. Journal of Applied Biomechanics, 20(1), 38-47.
Tillman. M. D., Hass, C. J., Brunt, D., & Bennett, G. R. (2004). Jumping and landing techniques in elite women’s volleyball. Journal of Sports Science and Medicine, 3, 30-36
Verhagen, E. A. L. M., Van der Beek, A. J., Bouter, L. M., Bahr, R. M., & Van Mechelen, W. (2004). A one season prospective cohort study of volleyball injuries. British Journal of Sports Medicine , 38, 477-481
Watkins, J., & Green, B.N. (1992). Volleyball injuries: A survey of injuries of Scottish national league male players. British Journal of Sports Medicine, 26, 135-137.
Yeadon, M. R., King, M. A., Forrester, S. E., Caldwell, G. E., & Pain, M. T. (2010). The need for muscle cocontraction prior to a landing. Journal of Biomechanics. 43(2), 364-369
Yeow, C.H., Lee, P.V.S., & Goh, J.C.H. (2009) . Effect of landing height on frontal plane kinematics, kinetics and energy. Journal of Biomechanics, 42(12), 1967-1973.
Yeow, C.H., Lee, P.V.S., & Goh, J.C.H. (2010). Sagittal knee joint kinematics and energetics in response to different landing heights. The Knee, 17(2), 127-131
Zebis M. K., Andersen L. L., Bencke J., Kjaer M., & Aagaard P. (2009) Identification of athletes at future risk of anterior cruciate ligament ruptures by neuromuscular screening. The American Journal of Sports Medicine, 37, (10), 1967-1973.
Zhang, S-N., Bates, B. T., & Dufek, J. S. (2000). Contributions of lower extremity joints to energy dissipation during landings. Medicine & Science in Sports & Exercise, 32(4), 812-819.