簡易檢索 / 詳目顯示

研究生: 盧俊偉
Lou, Chon-Wai
論文名稱: 臀肌啟動熱身對於女性運動員在高台著地的生物力學影響
THE INFLUENCE OF GLUTEAL ACTIVATION WARM UP IN FEMALE ATHLETE BIOMECHANICS DURING DROP LANDING
指導教授: 李恆儒
Lee, Heng-Ju
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: 2019
畢業學年度: 107
語文別: 中文
論文頁數: 41
中文關鍵詞: 生物力學臀肌前十字韌帶
英文關鍵詞: Biomechanics, gluteal muscle, ACL
DOI URL: http://doi.org/10.6345/NTNU201900914
論文種類: 學術論文
相關次數: 點閱:170下載:24
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
  • 女性運動員在跳躍著地的時候會活化較少的臀部肌肉,以致在著地時產生對下肢造成負荷的生物力學參數。本研究探討女性運動員加入臀肌啟動熱身,在單腳高台著地策略的立即性影響。本實驗收集了14位女性大專乙組籃球員,受試者需要收集5次成功的單腳高台著地測驗 (30cm) 前測以及後測,前測結束後會隨機分配到跑步機熱身組(n=7;年齡:20.1±2.9歲;身高:167.0±5.0公分;體重:60.6±4.4公斤)或臀肌啟動熱身組(n=7;年齡:21.6±2.6歲;身高:166.7±5.8公分;體重:57.6±3.8公斤),跑步機熱身會用自選速度慢跑5分鐘;臀肌啟動熱身組包括5個臀肌啟動運動(單腳橋式、蚌殼式運動、向前弓箭步、單腳硬舉、彈力帶下側走) 每個動作10次1組,動作間休息1分鐘。實驗使用7台高速攝影機,搭配測力板收集運動員在著地減速期運動學跟動力學參數,以及使用7顆無線肌電電極收集臀大肌、臀中肌、股外側肌、股直肌、股內側肌、半膜肌、股二頭肌在著地前100ms和著地減速期的肌電訊號。以相依樣本t檢定和單因子共變數分析進行統計分析。結果發現,經過臀肌啟動熱身的臀大肌在著地減速期的肌電訊號峰值顯著大於前測和跑步機熱身組(p<0.05);膝關節內收角度峰值與外翻內力矩峰值顯著大於前測(p<0.05);踝關節外翻角度平均值和峰值顯著大於前測(p<0.05);髖伸直力矩平均值與峰值顯著大於前測與跑步機熱身組(p<0.05)。臀肌啟動後可以讓臀大肌在著地的過程中產生更多的活化,改善女性在著地時使用較少臀肌的策略,用較保護前十字韌帶的方式著地。

    Female athletes are prone to have lower extremity injury during drop landing because they did not activate enough of their gluteal muscles. The purpose of this study is to investigate if the gluteal activation warm up can improve the biomechanics during single leg drop landing. 14 female athletes whom represented NTNU division two basketball team were recruited and randomly assigned to treadmill group (n=7;Age: 20.1±2.9 yr ; Height: 167.0±5.0 cm ; Weight: 60.6±4.4 kg) or gluteal activation group (n=7 ; Age: 21.6±2.6 yr ; Heigh: 166.7±5.8 cm ; Weight: 57.6±3.8 kg). All of them need to perform 5 successful single leg drop landing before and after the warm up. For treadmill group, the participants choose a comfortable speed to run for 5 minutes. For gluteal activation group, there are 5 exercise (Single leg bridge, clam with band, forward lunge, single leg deadlift, side step with band), each of them need to perform 10 repetition, 1 set and have 1 minute rest between each exercise. We use 7 infrared cameras and 1 force plate to collect kinematic and kinetic data. And 7 surface EMG electrodes to collect gluteal maximus, gluteal medius, vastus lateralis, rectus femoris, vastus medialis, semimembranosus, biceps femoris muscle activity during deceleration phase of landing and 100ms before initial contact. After gluteal activation, gluteal maximus activity had significantly increased compare to pre-test and treadmill group (p<0.05). Peak knee adduction angle and internal abduction moment had significantly increased compare to pre-test (p<0.05). Mean and peak ankle eversion angle had significantly increased compare to pre-test (p<0.05). Mean and peak hip extensor moment have significantly increased compare to pre-test (p<0.05) and peak hip extensor moment have significantly increased compare to treadmill group (p<0.05). Female athletes can activate more of their gluteal muscle during landing, this landing strategy may be safer for them to prevent ACL injury occur.

    中文摘要 i 英文摘要 ii 目次 iv 表次 vi 圖次 vii 第壹章 緒論 1 第一節 問題背景 1 第二節 研究目的 3 第三節 操作性名詞定義解釋 3 第四節 研究範圍 3 第五節 研究限制 4 第貳章 文獻探討 5 第一節 女性運動員運動生物力學特徵 5   第二節 跳躍著地策略 7 第三節 臀肌啟動的重要性 9 第四節 文獻總結 11 第參章 研究方法 12 第一節 研究對象 12 第二節 實驗儀器與設備 12 第三節 實驗流程與說明 15 第四節 資料處理 19 第五節 統計分析 19 第肆章 結果與討論 20 第一節 臀肌啟動熱身對著地參數的影響 20 第二節 跑步機熱身對著地參數的影響 23 第三節 不同熱身方式在著地時的差異 26 第四節 綜合討論 30 第伍章 結論與建議 34 文獻引用 35 附錄一 實驗參與者須知 38 附錄二 受試者同意書 39 附錄三 受試者基本資料表 40

    Ali, N., Rouhi, G., & Robertson, G. (2013). Gender, Vertical Height and Horizontal
    Distance Effects on Single-Leg Landing Kinematics: Implications for Risk of non-contact ACL Injury. Journal of Human Kinetics, 37, 27-38.

    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: NAJSPT, 5(4), 234.

    Pollard, C. D., Sigward, S. M., & Powers, C. M. (2010). Limited hip and knee flexion during landing is associated with increased frontal plane knee motion and moments. Clinical biomechanics, 25(2), 142-146.

    Zazulak, B. T., Ponce, P. L., Straub, S. J., Medvecky, M. J., Avedisian, L., & Hewett, T. E. (2005). Gender comparison of hip muscle activity during single-leg landing. Journal of Orthopaedic & Sports Physical Therapy, 35(5), 292-299.

    Barry, L., Kenny, I., & Comyns, T. (2016). Performance Effects of Repetition Specific Gluteal Activation Protocols on Acceleration in Male Rugby Union Players. Journal of Human Kinetics, 54, 33-42.

    Berry, J. W., Lee, T. S., Foley, H. D., & Lewis, C. L. (2015). Resisted Side Stepping: The Effect of Posture on Hip Abductor Muscle Activation. Journal of Orthopaedic & Sports Physical Therapy, 45(9), 675-682.

    Comyns, T., Kenny, I., & Scales, G. (2015). Effects of a Low-Load Gluteal Warm-Up on Explosive Jump Performance. Journal of Human Kinetics, 46, 177-187.

    Decker, M. J., Torry, M. R., Wyland, D. J., Sterett, W. I., & Richard Steadman, J. (2003). Gender differences in lower extremity kinematics, kinetics and energy absorption during landing. Clinical Biomechanics, 18(7), 662-669.

    Lawrence, R. K., 3rd, Kernozek, T. W., Miller, E. J., Torry, M. R., & Reuteman, P. (2008). Influences of hip external rotation strength on knee mechanics during single-leg drop landings in females. Clin Biomech (Bristol, Avon), 23(6), 806-813.

    Prodromos, C. C., Han, Y., Rogowski, J., Joyce, B., & Shi, K. (2007). A meta-analysis of the incidence of anterior cruciate ligament tears as a function of gender, sport, and a knee injury-reduction regimen. Arthroscopy, 23(12), 1320-1325 e1326.

    Reiman, M. P., Bolgla, L. A., & Loudon, J. K. (2012). A literature review of studies evaluating gluteus maximus and gluteus medius activation during rehabilitation exercises. Physiotherapy Theory and Practice, 28(4), 257-268.

    Schmitz, R. J., Kulas, A. S., Perrin, D. H., Riemann, B. L., & Shultz, S. J. (2007). Sex differences in lower extremity biomechanics during single leg landings. Clin Biomech (Bristol, Avon), 22(6), 681-688.

    Stickler, L., Finley, M., & Gulgin, H. (2015). Relationship between hip and core strength and frontal plane alignment during a single leg squat. Physical Therapy in Sport, 16(1), 66-71.

    Struminger, A. H., Lewek, M. D., Goto, S., Hibberd, E., & Blackburn, J. T. (2013). Comparison of gluteal and hamstring activation during five commonly used plyometric exercises. Clin Biomech (Bristol, Avon), 28(7), 783-789.

    Taylor, J. B., Ford, K. R., Nguyen, A. D., & Shultz, S. J. (2016). Biomechanical Comparison of Single- and Double-Leg Jump Landings in the Sagittal and Frontal Plane. Orthopaedic Journal of Sports Medicine, 4(6), 2325967116655158.

    Willson, J. D., Petrowitz, I., Butler, R. J., & Kernozek, T. W. (2012). Male and female gluteal muscle activity and lower extremity kinematics during running. Clin Biomech (Bristol, Avon), 27(10), 1052-1057.

    Yeow, C. H., Lee, P. V., & Goh, J. C. (2011). An investigation of lower extremity energy dissipation strategies during single-leg and double-leg landing based on sagittal and frontal plane biomechanics. Human Movement Science, 30(3), 624-635.

    Akuthota, V., & Nadler, S. F. (2004). Core strengthening. Archives of physical medicine and rehabilitation, 85, 86-92.

    Popovich Jr, J. M., & Kulig, K. (2012). Lumbopelvic landing kinematics and EMG in women with contrasting hip strength. Med Sci Sports Exerc, 44(1), 146-153.

    Suzuki, H., Omori, G., Uematsu, D., Nishino, K., & Endo, N. (2015). THE INFLUENCE OF HIP STRENGTH ON KNEE KINEMATICS DURING A SINGLE?LEGGED MEDIAL DROP LANDING AMONG COMPETITIVE COLLEGIATE BASKETBALL PLAYERS. International journal of sports physical therapy, 10(5), 592.

    Kernozek, T. W., Torry, M. R., Van Hoof, H., Cowley, H., & Tanner, S. (2005). Gender differences in frontal and sagittal plane biomechanics during drop landings. Medicine & Science in Sports & Exercise, 37(6), 1003-1012.

    Baldon, R. D. M., Lobato, D. F. M., Carvalho, L. P., Santiago, P. R. P., Benze, B. G., & Serrao, F. V. (2011). Relationship between eccentric hip torque and lower-limb kinematics: gender differences. Journal of applied biomechanics, 27(3), 223-232.

    McCurdy, K., Walker, J., Armstrong, R., & Langford, G. (2014). Relationship between selected measures of strength and hip and knee excursion during unilateral and bilateral landings in women. The Journal of Strength & Conditioning Research, 28(9), 2429-2436.

    Macadam, P., Cronin, J., & Contreras, B. (2015). An examination of the gluteal muscle activity associated with dynamic hip abduction and hip external rotation exercise: A systematic review. International journal of sports physical therapy, 10(5), 573.

    Andersen, L. L., Magnusson, S. P., Nielsen, M., Haleem, J., Poulsen, K., & Aagaard, P. (2006). Neuromuscular activation in conventional therapeutic exercises and heavy resistance exercises: implications for rehabilitation. Physical therapy, 86(5), 683-697.

    Chappell, J. D., Creighton, R. A., Giuliani, C., Yu, B., & Garrett, W. E. (2007). Kinematics and electromyography of landing preparation in vertical stop-jump: risks for noncontact anterior cruciate ligament injury. The American journal of sports medicine, 35(2), 235-241.

    Crow, J. F., Buttifant, D., Kearny, S. G., & Hrysomallis, C. (2012). Low load exercises targeting the gluteal muscle group acutely enhance explosive power output in elite athletes. The Journal of Strength & Conditioning Research, 26(2), 438-442.

    Palmieri-Smith, R. M., Wojtys, E. M., & Ashton-Miller, J. A. (2008). Association between preparatory muscle activation and peak valgus knee angle. Journal of Electromyography and Kinesiology, 18(6), 973-979.

    Leppanen, M., Pasanen, K., Krosshaug, T., Kannus, P., Vasankari, T., Kujala, U. M., ... & Parkkari, J. (2017). Sagittal plane hip, knee, and ankle biomechanics and the risk of anterior cruciate ligament injury: a prospective study. Orthopaedic journal of sports medicine, 5(12), 2325967117745487.

    Walsh, M., Boling, M. C., McGrath, M., Blackburn, J. T., & Padua, D. A. (2012). Lower extremity muscle activation and knee flexion during a jump-landing task. Journal of athletic training, 47(4), 406-413.

    Joseph, M., Tiberio, D., Baird, J. L., Trojian, T. H., Anderson, J. M., Kraemer, W. J., & Maresh, C. M. (2008). Knee valgus during drop jumps in National Collegiate Athletic Association Division I female athletes: the effect of a medial post. The American journal of sports medicine, 36(2), 285-289.

    Pollard, C. D., Sigward, S. M., & Powers, C. M. (2017). ACL injury prevention training results in modification of hip and knee mechanics during a drop-landing task. Orthopaedic journal of sports medicine, 5(9), 2325967117726267.

    Podraza, J. T., & White, S. C. (2010). Effect of knee flexion angle on ground reaction forces, knee moments and muscle co-contraction during an impact-like deceleration landing: implications for the non-contact mechanism of ACL injury. The Knee, 17(4), 291-295.

    下載圖示
    QR CODE