簡易檢索 / 詳目顯示

研究生: 謝維駿
論文名稱: 活化後增益現象不同組間休息階段對跳躍即時表現之影響
指導教授: 黃長福
學位類別: 碩士
Master
系所名稱: 體育學系
Department of Physical Education
論文出版年: 2013
畢業學年度: 101
語文別: 中文
論文頁數: 50
中文關鍵詞: Conditioning activityPAP
英文關鍵詞: Conditioning activity, PAP
論文種類: 學術論文
相關次數: 點閱:86下載:14
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
  • 賽前預先施以一較高負荷的預先體能活動 (Conditioning Activity, CA) ,使運動單位招募較多肌纖維,可能即時提升後續相似生物力學特性的運動表現,此為活化後增益 (Post-Activation Potentiation, PAP) 機制。2013年 Wilson 等的綜合分析 (Meta-analysis) 提出 PAP 最佳提升運動表現的組合。本文目的:按照綜合分析之組合設計,並將不同組間休息時間運動表現測驗放在同一測驗日,以模擬多數運動項目實際情境,並評估實際成效。方法: 30名阻力訓練經驗1年以上運動員 (25男與5女) ,進行3次*65% 1RM 、2次*75% 1RM 、1次*85% 1RM 半蹲舉後,在10分鐘內不同時間點分別進行垂直跳測驗,為蹲舉後立即、3分鐘、7分鐘、10分鐘。資料處理:使用重複量數單因子變異數分析 (one-way ANOVA, repeated measures),跳躍表現與半蹲舉最大反覆相關性,採用皮爾遜積差相關 (Pearson correlation coefficient ) 。結果: (1) 跳躍表現與半蹲舉最大反覆具有正相關 (2) 垂直跳參數皆無顯著增進表現。結論:本研究有27%受試者從中得到效益,整體無顯著,PAP 對於跳躍表現的影響,將取決於受試者的個別差異。

    The purpose of this study was to determine if a power exercise would lead to greater post-activation potentiation (PAP) than a strength exercise, if a immediately, 3, 7, 10 minute rest interval led to a greater counter movement jump (CMJ) performance. Thirty athletes (25 male and 5 female) who had resistance training experience at least 1 year participated in the study and were instructed to complete a pre-test. Than the subject performed 3 repetitions *65% 1RM, 2 repetitions *75% 1RM and 1 repetition *85% 1RM back squat. After back squat, the CMJ ware performed at immediately, 3, 7, or 10 minutes rest interval. Data were analyzed using a one-way ANOVA with repeated measures. Pearson’s product moment correlations between measurements were calculated among back squat and jumping height. Results revealed that there was no difference among rest interval on CMJ performance. There is a positive correlations between the 1RM back squat and CMJ performance. Results suggest that the effect of PAP on jumping performance will be determined by different individual.

    口試委員與系主任簽字之論文通過簽名表……………………………………………..….. i 論文授權書……………………………………………………………………………….….. ii 中文摘要………………………………………………………………………………….…. iii 英文摘要………………………………………………………………………….………..….iv 目次……………………………………………………………………………………………vi 圖次………………………………………………………………………………………….vii 表次………………………………………………………………………………………….viii 第壹章 緒論……………………………………………………………….…..1 第一節 前言………………………………………………………………………..1 第二節 問題背景…………………………………………………………………..2 第三節 研究目的…………………………………………………………………..5 第四節 名詞操作性定義…………………………………………………………..6 第五節 研究範圍…………………………………………………………………..7 第六節 研究限制…………………………………………………………………..8 第貳章 文獻探討……………………………………………………………..9 第參章 研究方法與步驟…………………………………………………….15 第一節 研究方法與步驟…………………………………………………………15 第二節 研究對象…………………………………………………………………16 第三節 實驗時間與地點…………………………………………………………17 第四節 實驗儀器設備……………………………………………………………18 第五節 實驗場地佈置……………………………………………………………20 第六節 實驗流程…………………………………………………………………21 第七節 資料收集…………………………………………………………………23 第八節 資料處理…………………………………………………………………24 第肆章 結果與討論………………………………………………………….25 第一節 活化後增益現象對不同組間休息時間垂直跳之影響…………………… 25 第二節 活化後增益現象對不同組間休息時間最大功率之影響………………….27 第三節 活化後增益現象對不同組間休息時間30毫秒發力率影響…………..….29 第四節 活化後增益現象對不同組間休息時間推蹬期衝量之影響……………….31 第五節 1 RM 半蹲舉與垂直跳表現相關分析…….……………………………….33 第七節 討論……………………………………………………………………….34 第伍章 結論與應用建議…………………………………………………….37 第一節 結論………………………………………………………………………… 37 第二節 應用建議…………………………………………………………………….37 參考文獻……………………………………………………………...………..39 附錄、數據總表…………………………………………………………………………….40 圖 次 圖1-4-1 推蹬期示意……….…………………………………………………………….6 圖3-1-1 實驗架構………………….…………………………………………………….15 圖3-4-1 測力板與放大器示意…………………………………………………………..20 圖3-4-3 LabVIEW 虛擬儀控程式介面…….…………………………………………..20 圖3-5-1 實驗場地佈置………………………….…………………………...…………..20 圖3-6-1 半蹲舉動作…...………………………………………..……………………….22 圖3-6-2 實驗設計示意……………………………………………………………..……22 圖3-8-1 LabVIEW編寫介面………………………………………….…………………24 圖4-1-1 垂直跳示意……..………………………………………………………………22 圖4-2-1 最大功率示意………………………………………...…………………………27 圖4-3-1 發力率示意………………………………………………..……………………29 圖4-4-1 推蹬期衝量示意……..…………………………………………………………31 圖5-2-1 膝蓋不正常受力…………………………………………………………………38 圖5-2-2 誘發臀中肌 PAP………………………………………………………………..38 圖5-2-3 活化後的關節正常受力…………………………………………………………38 表 次 表3-2-1 受試者基本資料………………………………………………...……………….25 表4-1-1 垂直跳高度變化量摘要…………………………………….……………………26 表4-1-2 垂直跳相依樣本單因子變異數分析摘要…………………………….…………26 表4-2-1 最大功率變化量摘要……………………………………………………………27 表4-3-1 30毫秒發力率變化量摘要……………………………………………...………29 表4-3-2 30毫秒發力率相依樣本單因子變異數分析摘要……………………...………30 表4-4-1 推蹬期衝量………………………………………………………………….…….31 表4-4-2 推蹬期衝量相依樣本單因子變異數分析摘要……………….………………….32 表4-5-1 相關分析描述資料………………………………………………………………..33 表4-5-2 垂直跳與蹲舉1RM之相關………………………………………………………..33

    Adams, K., O’Shea, J, P., O’Shea, K, L., & Climstein, M. (1992). The effect of six weeks of squat, plometrics and squat-plyometric training on power production. Journal of Strength and Conditioning Research, 6(1), 36-41.
    Babault, N., Maffiuletti, N., & Pousson, M. (2008). Postactivation potentiation in human knee extensors during dynamic passive movements. Medicine and Science in Sports and Exercise, 40(4), 735-743.
    Baker, D, A. (2001). series of studies on training of high-intensity muscle power in rugby league football players. Journal of Strength and Conditioning Research, 15(2), 198-209.
    Baudry, S., & Duchateau, J. (2007). Postactivation potentiation in a human muscle: effect on the rate of torque development of tetanic and voluntary isometric contractions. European journal of Applied Physiology, 102(4), 1394-1401.
    Behm, D, G., Bambury, A., Cahill, F., & Power, K. (2004). Effect of acute static stretching on force, balance, reaction time, and movement time. Medicine & Science in Sports & Exercise, 1397-1402.
    Carlock, J, M., Smith, S, L., Hartman, M, J., Morris, R, T., Ciroslan, D, A., Pierce, K, C., Newton, R, U., Harman, E, A., Sands, W, A., & Stone, M, H. (2004). The relationship between vertical jump power estimates and weightlifting ability: A field-test approach.
    Charilaos, T. (2012). Update Your Warm-Up Approach to Training and Competition. Journal of Sports Science and Medicine & Doping Studie, 2(1), 1000-1002.
    Chatzopoulos, D, E., Michailidis, C, J., Giannakos, A, K., Alexiou, K, C., Patikas, D, A., Antonopoulos, C, B., & Kotzamanidis, C, M. (2007). Post-activation potentiation effects after heavy resistance exercise on running speed. Journal of Strength & Conditioning Research, 21, 1278-1281.
    Chiu, L, Z., Fry, A, C., & Weiss, L, W. (2003). Postactivation potentiation response in athletic and recreationally trained individuals. Journal of Strength and Conditioning Research, 17(4), 671-677.
    Docherty, D., & Hodgson, M. (2007). The application of postactivation potentiation to elite sport. International Journal of Sports Physiology and Performance, 2(4), 439-444.
    Ebben, W, P., & Watts, P. B. (1998). A review of combined weight training and plyometric training modes: Complex training. National Strength & Conditioning Association, 20, 18-27.
    Fletcher, I. M. (2012). An Investigation into the Effect of a Pre-Performance Strategy on Jump Performance. Journal of Strength & Conditioning Research, PDF Only.
    G¨uillich, A., & Schmidtbleicher, D. (1996). MVC-induced short-term poteniation of explosive force. New Studies in Athletics, 11(4), 67-81.
    Gilbert, G., & Lees, A. (2005). Changes in the force development characteristics of muscle following repeated maximum force and power exercise. Ergonomics, 48, 1576-1584.
    Gossen, E, R., & Sale, D, G. (2000). Effect of postactivation potentiation on dynamic knee extension performance. European journal of Applied Physiology, 83(6), 524-530.
    Gullich, A., & Schmidtbleicher, D. (1996). MVC-induced short-term potentiation of explosive force. New Studies in Athletics, 11(4), 67-81.
    Hamada, T., Sale, D, G., & MacDougall, J, D. (2000). Postactivation potentiation, fiber type, and twitch contraction time in human knee extensor muscles. European journal of Applied Physiology, 88(6), 2131-2137.
    Hodgson, M., Docherty, D., & Robbins, D. (2005). Post-activation potentiation: underlying physiology and implications for motor performance. Sports Medicine, 35(7), 585-595.
    Ioannis, G. F., Athanasios, Z. J., Leontsini, D., Kyriakos, T., Aggelousis, N., & Kostopoulos, N. (2000). Valuation of plyometric exercise training, weight training, and their combination on vertical jumping performance and leg strength. Journal of Strength and Conditioning Research, 14(4), 470-476.
    J. Strength Cond. Res. 18(3):534–539.
    Jensen, R., L., & Ebben, W., P. (2003). Kinetic Analysis of Complex Training Rest Interval Effect on Vertical Jump Performance. Journal of Strength and Conditioning Research, 17(2), 345-349.
    Judge, L, W. (2010). The Application of Postactivation Potentiation to the Track and Field Thrower. Journal of Strength & Conditioning Research. 24(7), 1804-1809.
    Khamoui, A, V., Brown, L, E., Coburn, J, W., Judelson, D, A., Uribe, B, P., Nguyen, D., Tran, T., Eurich, A, D., Noffal, G, J. (2009). Effect of potentiating exercise volume on vertical jump parameters in recreationally trained men. Journal of Strength and Conditioning Research, 23(5), 1465-1469.
    Kilduff, L., P., Bevan, H., R., Kingsley, M., I., Owen, N., J., Bennett, M., A., Bunce, P., J., Maw, J., R., & Cunningham, D, J. (2007). Postactivation potentiation in professional rugby players optimal recovery. Journal of Strength and Conditioning Research, 21(4), 1134-1138.
    Kitago, T., MazzoAChio, R., & Liuzzi, G. (2004). Modulation of H reflex excitability by tetanic stimulation. Clin Neurophysiol, 115(4), 858-861.
    Kloppenburg, S., Rehorst, J., & Beurskens, R. (2012). Complex training definitie en theoretische rationale. Spor tger icht n, 66, 11-16.
    Koziris, P. (2012). Postactivation Potentiation: Sometimes More Fatigue Than Postactivation. Strength & Conditioning Journal, 34(6), 75-76.
    Magnus, B., C. Takahashi, M., Mercer, J., A. Holcomb,W, R., McWhorter, J., W., & Sanchez, R. (2006). Investigation of Vertical Jump Performance After Completing Heavy Squat Exercises. Journal of Strength and Conditioning Research, 20(3), 597-600.
    Moore, R, L., & Stull, J, T. (1984). Myosin light chain phosphorylation in fast and slow skeletal muscles in situ. American Journal of Physiology-Cell, 247(5), C462-C471.
    Newton, R, U., Murphy, A, J., Humphries, B, J., Wilson, G, J., Kraemer, W, J., & Häkkinen, K. (1997). Influence of load and stretch shortening cycle on the kinematics, kinetics and muscle activation that oACurs during explosive upper-body movements. European journal of Applied Physiology and OACupational Physiology, 75(4), 333-342.
    Okuno, N, M., Tricoli, V., Silva, S, B., Bertuzzi, R., Moreira, A., & Kiss, M, A. (2013). Postactivation potentiation on repeated-sprint ability in elite handball players. J Strength Cond Res 27(3), 662-668.
    Robbins, D, W. (2005). Postactivation potentiation and its practical applicability: a brief review. Journal of Strength & Conditioning Research, 19(2), 453-458.
    Sale, D, G. (1998). Neural adaptation to resistance training. Medicine and Science in Sports and Exercise, 20, 135-145.
    Sale, D, G. (2002). Postactivation potentiation: role in human performance. Exercise & Sport Sciences Reviews, 30(3), 138-143.
    Sale, D, G. (2004). Postactivation potentiation: role in performance. British journal of sports medicine, 38(4), 386-387.
    Schmidtbleicher, D. (1986). Neurophysiologische Aspektedes Sprungkrafttrainings: Neurophsiological aspects of jump-training. In k. Carl & Schiffer(Eds.) Zur Praxis des Sprungkraft training (pp. 56-72). Bundesinstitut for Sportwissen-schaft.
    Shim, N., Rice, C, L., Ota, Y., & Yabe, K. (2006). The effect of postactivation potentiation on the mechanomyogram. European journal of Applied Physiology, 96, 17-23.
    Smilios, I., Pilliandis, T., Sotiropoulos, K., Antonakis, M., & Tokmakidis, S, P. (2005). Short-term effects of selected exercise and load in contrast training on vertical jump performance. Journal of Strength and Conditioning Research, 19(1), 135-139.
    Sweeney, H, L., & Stull, J, T. (1990). Alterations of cross-bridge kinetics by myosin light chain phosphorylation in rabbit skeletal muscle: implications for regulation of actin-myosin interaction. Proceedings of the National Academy of Sciences, 87, 414-418.
    Terzis, G. K., G. Kyriazis, T. Kavouras, S, A., & Georgiadis, G. (2012). Acute Effects of Countermovement Jumping and Sprinting on Shot Put Performance. Journal of Strength & Conditioning Research, 26(3), 684-690.
    Tillin, N, A., & Bishop, D. (2009). Factors modulating post-activation potentiation and its effect on performance of subsequent explosive activities. Journal of Sports Medicineicine, 39, 147-166.
    Toumi, H., Best, T. M., Martin, A., & Poumarat, G. (2004). Muscle plasticity after weight and combined (weight + jump) training. Medicine and Science in Sports and Exercise, 36(9), 1500-1588.
    Trimble, M, H., & Harp, S, S., (1998). Postexercise potentiation of the H-reflex in humans. Medicine and Science in Sports and Exercise, 30(6), 933-941.
    Tsolakis, C., Bogdanis, G, C. Nikolaou, A. (2011). Influence of type of muscle contraction and gender on postactivation potentiation of upper and lower limb explosive performance in elite fencers. Journal of Sports Science and Medicine, 10, 577-583.
    Turki, O., Chaouachi, A., Behm, D. G., Chtara, H., Chtara, M., Bishop, D., & Amri, M. (2012). The effect of warm-ups incorporating different volumes of dynamic stretching on 10- and 20-m sprint performance in highly trained male athletes. Journal of Strength and Conditioning Research, 26(1), 63-72.
    Viru, A. (1995). Adaptation in sports training. Florida, Boca Raton: CRC Press.
    Walker, S., Ahtiainen, J. P., & Hakkinen, K. (2010). Acute neuromuscular and hormonal responses during contrast loading: effect of 11 weeks of contrast training. Scandinavian Journal of Medicine & Science in Sports, 20(2), 226-234.
    Walshe, A, D., Wilson, G, J., & Ettema, G, J. (1998) Stretch-shorten cycle compared with isometric preload: contributions to enhanced muscular performance. Journal of Applied Physiology, 84(1), 97-106.
    Warren, Y., B , Andrew, J., & Kerrin, G. (1998). Acute Enhancement of Power Performance From Heavy Load Squats. Journal of Strength & Conditioning Research, 12(2), 82-84.
    Wilson, J, M., Duncan, N, M., Marin, P, J., Brown, L, E., Loenneke, J, P., Wilson, S, M, C., Edward, J., Lowery, R, P., & Ugrinowitsch, C. (2013). Metaanalysis of postactivation potentiation and power: Effects of conditioning activity, volume, gender, rest periods, and training status. J Strength Cond Res 27(3), 854-859.
    Wright, G, A., Pustina, A, A., Mikat, R, P., & Kernozek, T, W. (2012). Predicting lower body power from vertical jump prediction equations for loaded jump squats at different intensities in men and women. J Strength Cond Res 26(3): 648–655.

    下載圖示
    QR CODE