簡易檢索 / 詳目顯示

研究生: 丁政豪
Ding, Jheng-Hao
論文名稱: 增強式訓練應用團組方式對籃球員下肢爆發力影響之探討
Effects of plyometric training using cluster sets on lower extremity power performance of basketball players.
指導教授: 何仁育
Ho, Jen-Yu
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: 64
中文關鍵詞: 組內休息爆發力訓練運動表現牽張反射
英文關鍵詞: intra-set rest, power training, exercise performance, stretch reflex
DOI URL: http://doi.org/10.6345/THE.NTNU.DAP.004.2019.F03
論文種類: 學術論文
相關次數: 點閱:272下載:43
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
  • 目的:探討八週增強式訓練應用團組 (cluster sets, CS) 方式對籃球員下肢爆發力表現的影響。方法:24名有阻力訓練經驗的高中男性籃球員,以蹲舉最大肌力表現進行配對,並以分層隨機分至傳統組 (n=12),以及CS組 (n=12),所有參與者在分組完成後,開始進行八週的增強式訓練,一週2次,總計16堂訓練,使用5種跳躍組合進行 (下蹲跳、側跳、側跨步彈跳、單腳跳、立定跳遠),每個動作在第一階段 (1-2週)各進行20次,第二階段 (3-5週) 各進行30次,第三階段 (6-8週) 各進行40次。傳統組進行每一組10次反覆,組間休息90秒;CS組則是5次反覆組成一個團組 (一組內有2個團組),團組間休息45秒,組間休息45秒,兩種組別的總休息時間一致,並且在訓練過程中,每一組訓練動作結束後,記錄運動自覺強度 (rating of perceived exertion scale, RPE)。八週訓練前後,所有參與者皆進行垂直跳高、立定跳遠、20公尺衝刺、敏捷性、蹲舉最大肌力、下肢最大等長肌力等運動檢測。結果:八週的增強式訓練後,兩組在垂直跳高、蹲舉最大肌力、下肢最大等長肌力皆顯著進步 (p < .05),但組別間無顯著差異;立定跳遠上只有傳統組 (247.3 ± 25.0公分) 顯著高於訓練前 (235.0 ± 21.4公分) (p < .05),速度與敏捷測驗則是在兩組之間、訓練前後皆無顯著差異。RPE部分,在訓練的三個階段中,CS組 (37.12 ± 4.97, 46.08 ± 9.35, 61.61 ± 10.82) 皆顯著低於傳統組 (41.47 ± 4.67, 52.12 ± 9.68, 73.18 ± 7.81) (p < .05)。結論:八週的增強式訓練應用團組方式無法更進一步提升籃球員的下肢爆發力與肌力表現。然而,團組方式能夠降低訓練過程的RPE,以較小的訓練壓力達到與傳統訓練方式相近的肌力進步。

    Purpose: To examine effects of eight-week plyometric training using cluster sets on lower extremity power performance of basketball players. Methods: Twenty-four high school basketball players were recruited to participate in this study. Participants were matched and randomly assigned into cluster sets (CS) group (n=12) and traditional group (n=12). Eight weeks of plyometric training (two sessions per week, 16 total training sessions) consisted of five different jumps (counter movement jump, lateral jump, lateral bounding, single leg hop, and broad jump) and each jump was performed 20 times at first phase (1st-2nd week), 30 times at second phase (3rd -5th week), and 40 times at third phase (6th-8th week), respectively. The traditional group completed a set of 10 jumps with 90 seconds of rest between each set. The CS group completed a cluster set of 5 jumps (2 cluster sets within a set) with 45 seconds rest between each cluster set and 45 seconds between each set. The total rest times in two groups were the same. Before and after the training, participants performed vertical jump, broad jump, 20m sprint, agility test, squat 1RM and lower limb maximal voluntary isometric muscle contraction (MVIC). In addition, the rate of perceived exertion (RPE) was recorded after completing each set during training. Results: Vertical jump, squat 1RM and MVIC were significantly increased in both groups after training (p < .05). However, no differences were observed between two groups. Broad jump was significantly increased only in traditional group after training (235.0 ± 21.4cm to 247.3 ± 25.0cm) (p < .05). No significant differences in sprint and agility tests were observed between times and between two groups. RPE in CS group (37.12 ± 4.97, 46.08 ± 9.35, 61.61 ± 10.82) was significantly lower than in traditional group during 3 different phases (41.47± 4.67, 52.12 ± 9.68, 73.18 ± 7.81) (p < .05). Conclusions: Eight weeks of plyometric training using CS training cannot lead to better lower extremity power and strength performance. However, CS training can gain similar strength improvement as traditional training with lower RPE during training.

    中文摘要 i 英文摘要 ii 謝誌 iii 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 5 第三節 研究假設 5 第四節 研究範圍及限制 5 第五節 研究重要性 5 第六節 名詞操作性定義 6 第貳章 文獻探討 8 第一節 增強式訓練提升爆發力表現之探討 8 第二節 單次運動應用團組方式提升爆發力表現之探討 11 第三節 長期訓練應用團組方式提升肌力與爆發力表現之探討 17 第四節 本章總結 22 第參章 研究方法 24 第一節 研究參與者 24 第二節 實驗時間與地點 24 第三節 實驗設計 25 第四節 實驗方法與步驟 27 第五節 實驗控制 34 第六節 資料處理與統計分析 35 第肆章 結果 36 第一節 參與者基本資料 36 第二節 下肢爆發力表現 36 第三節 下肢肌力表現 38 第四節 敏捷與速度表現 40 第五節 訓練中運動自覺強度 42 第伍章 討論 44 第一節 增強式訓練應用團組方式對下肢爆發力、敏捷與速度之影響 44 第二節 增強式訓練應用團組方式對下肢肌力之影響 48 第三節 增強式訓練應用團組方式對訓練中運動自覺強度之影響 49 第四節 結論與建議 50 參考文獻 52 附錄 58 附錄一 參與者同意書 58 附錄二 健康狀況與運動習慣調查表 61

    Adams, G. R., & Bamman, M. M. (2012). Characterization and regulation of mechanical loading-induced compensatory muscle hypertrophy. Comprehensive Physiology, 2(4), 2829-2870. doi:10.1002/cphy.c110066

    Asadi, A., Arazi, H., Young, W., & Saez, d. V. E. (2016). The effects of plyometric training on change of direction ability: a meta analysis. International Journal of Sports Physiology and Performance, 11(5), 563-573. doi: 10.1123/ijspp.2015-0694.

    Asadi, A., & Ramirez-Campillo, R. (2016). Effects of cluster vs. traditional plyometric training sets on maximal-intensity exercise performance. Medicina (Kaunas), 52(1), 41-45. doi:10.1016/j.medici.2016.01.001

    Asadi, A., Ramirez-Campillo, R., Meylan, C., Nakamura, F. Y., Canas-Jamet, R., & Izquierdo, M. (2016). Effects of volume-based overload plyometric training on maximal-intensity exercise adaptations in young basketball players. The Journal of Sports Medicine and Physical Fitness, 57(12):1557-1563.

    Attene, G., Iuliano, E., Di Cagno, A., Calcagno, G., Moalla, W., Aquino, G., & Padulo, J. (2015). Improving neuromuscular performance in young basketball players: plyometric vs. technique training. The Journal of Sports Medicine and Physical Fitness, 55(1-2), 1-8.

    Behrens, M., Mau-Moeller, A., Mueller, K., Heise, S., Gube, M., Beuster, N., Herlyn, PK., Fischer, DC., & Bruhn, S. (2016). Plyometric training improves voluntary activation and strength during isometric, concentric and eccentric contractions. Journal of Science and Medicine in Sport, 19(2), 170-176.

    Boullosa, D. A., Abreu, L., Beltrame, L. G., & Behm, D. G. (2013). The acute effect of different half squat set configurations on jump potentiation. The Journal of Strength and Conditioning Research,, 27(8), 2059-2066.

    Clutch, D., Wilton, M., McGown, C., & Bryce, G. R. (1983). The effect of depth jumps and weight training on leg strength and vertical jump. Research Quarterly for Exercise and Sport, 54(1), 5-10.

    Cormie, P., McGuigan, M. R., & Newton, R. U. (2011). Developing maximal neuromuscular power: part 2 - training considerations for improving maximal power production. Sports Medcine, 41(2), 125-146. doi:10.2165/11538500-000000000-00000

    de Villarreal, E. S., Izquierdo, M., & Gonzalez-Badillo, J. J. (2011). Enhancing jump performance after combined vs. maximal power, heavy-resistance, and plyometric training alone. The Journal of Strength and Conditioning Research, 25(12), 3274-3281. doi:10.1519/JSC.0b013e3182163085

    Drinkwater, E. J., Pyne, D. B., & McKenna, M. J. (2008). Design and interpretation of anthropometric and fitness testing of basketball players. Sports Medicine, 38(7), 565-578.

    Fatouros, I. G., Jamurtas, A. Z., Leontsini, D., Taxildaris, K., Aggelousis, N., Kostopoulos, N., & Buckenmeyer, P. (2000). Evaluation of plyometric exercise training, weight training, and their combination on vertical jumping performance and leg strength. The Journal of Strength and Conditioning Research, 14(4), 470-476.

    Folland, J. P., Irish, C., Roberts, J., Tarr, J., & Jones, D. A. (2002). Fatigue is not a necessary stimulus for strength gains during resistance training. British journal of sports medicine, 36(5), 370-373.

    García-Ramos, A. N., Vicenteb Padial, Paulinoa Valverde-Esteve, Teresab Pablos-Monzó, Anab Feriche, Beléna. (2016). Effects of short inter-repetition rest periods on power output losses during the half squat exercise. Isokinetics and Exercise Science, 24(4), 323-330.

    Girman, J. C., Jones, M. T., Matthews, T. D., & Wood, R. J. (2014). Acute effects of a cluster-set protocol on hormonal, metabolic and performance measures in resistance-trained males. European Journal of Sport Science, 14(2), 151-159. doi:10.1080/17461391.2013.775351

    Gonzalez-Badillo, J. J., Rodriguez-Rosell, D., Sanchez-Medina, L., Gorostiaga, E. M., & Pareja-Blanco, F. (2014). Maximal intended velocity training induces greater gains in bench press performance than deliberately slower half-velocity training. European Journal of Sport Science, 14(8), 772-781.
    Haff, G. G., Burgess, S., & Stone, M. H. (2008). Cluster training: Theoretical and practical applications for the strength and conditioning professional. UK Strength and Conditioning Association, 12, 12–16-25.

    Haff, G. G., Whitley, A., McCoy, L. B., O'Bryant, H. S., Kilgore, J. L., Haff, E. E., Pierce, K., Stone, M. H. (2003). Effects of different set configurations on barbell velocity and displacement during a clean pull. The Journal of Strength and Conditioning Research, 17(1), 95-103.

    Hansen, K. T., Cronin, J. B., & Newton, M. J. (2011). The effect of cluster loading on force, velocity, and power during ballistic jump squat training. International Journal of Sports Physiology and Performance, 6(4), 455-468.

    Hansen, K. T., Cronin, J. B., Pickering, S. L., & Newton, M. J. (2011). Does cluster loading enhance lower body power development in preseason preparation of elite rugby union players? The Journal of Strength and Conditioning Research, 25(8), 2118-2126. doi:10.1519/JSC.0b013e318220b6a3

    Hardee, J. P., Lawrence, M. M., Utter, A. C., Triplett, N. T., Zwetsloot, K. A., & McBride, J. M. (2012). Effect of inter-repetition rest on ratings of perceived exertion during multiple sets of the power clean. European Journal of Applied Physiology, 112(8), 3141-3147. doi:10.1007/s00421-011-2300-x

    Hardee, J. P., Lawrence, M. M., Zwetsloot, K. A., Triplett, N. T., Utter, A. C., & McBride, J. M. (2013). Effect of cluster set configurations on power clean technique. Journal of Sports Sciences, 31(5), 488-496.

    Hoffman, J. R., Tenenbaum, G., Maresh, C. M., & Kraemer, W. J. (1996). Relationship between athletic performance tests and playing time in elite college basketball players. The Journal of Strength and Conditioning Research, 10(2), 67-71.

    Iglesias-Soler, E., Mayo, X., Río-Rodríguez, D., Carballeira, E., Fariñas, J., & Fernández-Del-Olmo, M. (2016). Inter-repetition rest training and traditional set configuration produce similar strength gains without cortical adaptations. Journal of Sports Sciences, 34(15), 1473-1484.

    Jordan M. Joy , J. M. O., Sean A. McCleary, Ryan P. Lowery Jacob M. Wilson. (2013). Power output and electromyography activity of the back squat exercise with cluster sets. Journal of Sports Science, 1(1), 37-45.

    Khlifa, R., Aouadi, R., Hermassi, S., Chelly, M. S., Jlid, M. C., Hbacha, H., & Castagna, C. (2010). Effects of a plyometric training program with and without added load on jumping ability in basketball players. The Journal of Strength & Conditioning Research, 24(11), 2955-2961.

    King, J. A., & Cipriani, D. J. (2010). Comparing preseason frontal and sagittal plane plyometric programs on vertical jump height in high-school basketball players. The Journal of Strength and Conditioning Research, 24(8), 2109-2114. doi:10.1519/JSC.0b013e3181e347d1

    Kraemer, W. J., Adams, K., Cafarelli, E., Dudley, G. A., Dooly, C., Feigenbaum, M. S., Fleck, SJ., Franklin, B., Fry, AC., Hoffman, JR., Newton, RU., Potteiger, J., Stone, MH., Ratamess, NA., Triplett-McBride, T. (2002). American College of Sports Medicine position stand. Progression models in resistance training for healthy adults. Medicine and Science in Sports and Exercise, 34(2), 364-380.

    Kraemer, W. J., Fleck, S. J., & Evans, W. J. (1996). Strength and power training: physiological mechanisms of adaptation. Exercise and Sport Sciences Reviews, 24, 363-397.

    McCormick, B. T., Hannon, J. C., Newton, M., Shultz, B., Detling, N., & Young, W. B. (2016). The effects of frontal- and sagittal-plane plyometrics on change-of-direction speed and power in adolescent female basketball players. International Journal of Sports Physiology and Performance, 11(1), 102-107. doi:10.1123/ijspp.2015-0058

    Moreno, S. D., Brown, L. E., Coburn, J. W., & Judelson, D. A. (2014). Effect of cluster sets on plyometric jump power. The Journal of Strength and Conditioning Research, 28(9), 2424-2428. doi:10.1519/jsc.0000000000000585

    Nuzzo, J. L., McCaulley, G. O., Cormie, P., Cavill, M. J., & McBride, J. M. (2008). Trunk muscle activity during stability ball and free weight exercises. The Journal of Strength and Conditioning Research, 22(1), 95-102.

    Oliver, J. M., Jagim, A. R., Sanchez, A. C., Mardock, M. A., Kelly, K. A., Meredith, H. J., Smith, GL., Greenwood, M., Parker, JL., Riechman, SE., Fluckey, JD., Crouse, SF., Kreider, R. B. (2013). Greater gains in strength and power with intraset rest intervals in hypertrophic training. The Journal of Strength and Conditioning Research, 27(11), 3116-3131.

    Oliver, J. M., Kreutzer, A., Jenke, S., Phillips, M. D., Mitchell, J. B., & Jones, M. T. (2015). Acute response to cluster sets in trained and untrained men. European Journal of Applied Physiology, 115(11), 2383-2393. doi:10.1007/s00421-015-3216-7

    Oliver, J. M., Kreutzer, A., Jenke, S. C., Phillips, M. D., Mitchell, J. B., & Jones, M. T. (2016). Velocity drives greater power observed during back squat using cluster sets. The Journal of Strength and Conditioning Research, 30(1), 235-243. doi:10.1519/jsc.0000000000001023

    Ozbar, N., Ates, S., & Agopyan, A. (2014). The effect of 8-week plyometric training on leg power, jump and sprint performance in female soccer players. The Journal of Strength and Conditioning Research, 28(10), 2888-2894. doi:10.1519/jsc.0000000000000541

    Saez-Saez de Villarreal, E., Requena, B., & Newton, R. U. (2010). Does plyometric training improve strength performance? A meta-analysis. Journal of Science and Medicine in Sport, 13(5), 513-522. doi:10.1016/j.jsams.2009.08.005

    Saez de Villarreal, E., Requena, B., Izquierdo, M., & Gonzalez-Badillo, J. J. (2013). Enhancing sprint and strength performance: combined versus maximal power, traditional heavy-resistance and plyometric training. Journal of Science and Medicine in Sport, 16(2), 146-150. doi:10.1016/j.jsams.2012.05.007

    Santos, E. J., & Janeira, M. A. (2011). The effects of plyometric training followed by detraining and reduced training periods on explosive strength in adolescent male basketball players. The Journal of Strength and Conditioning Research, 25(2), 441-452. doi:10.1519/JSC.0b013e3181b62be3

    Scanlan, A. T., Tucker, P. S., & Dalbo, V. J. (2015). The importance of open- and closed-skill agility for team selection of adult male basketball players. The Journal of Sports Medicine and Physical Fitness, 55(5), 390-396.

    Spiteri, T., Nimphius, S., Hart, N. H., Specos, C., Sheppard, J. M., & Newton, R. U. (2014). Contribution of strength characteristics to change of direction and agility performance in female basketball athletes. The Journal of Strength and Conditioning Research, 28(9), 2415-2423. doi:10.1519/jsc.0000000000000547

    Stojanovic, E., Ristic, V., McMaster, D. T., & Milanovic, Z. (2016). Effect of Plyometric training on vertical jump performance in female athletes: a systematic review and meta-analysis. Sports Medicine. 47(5):975-986. doi:10.1007/s40279-016-0634-6

    Tufano, J. J., Conlon, J., Nimphius, S., Brown, L. E., Seitz, L., Williamson, B., & Haff, G. G. (2016). Maintenance of velocity and power with cluster sets during high-volume back squats. International Journal of Sports Physiology and Performance 11(7):885-892. doi:10.1123/ijspp.2015-0602

    Tufano, J. J., Conlon, J., Nimphius, S., Brown, L. E., Banyard, H. G., Williamson, B. D., Bishop, LG., Hopper, AJ., Haff, G. G. (2016). Cluster sets permit greater mechanical stress without decreasing relative velocity. International Journal of Sports Physiology and Performance, 12(4):463-469.

    Ziv, G., & Lidor, R. (2009). Physical attributes, physiological characteristics, on-court performances and nutritional strategies of female and male basketball players. Sports Medicine, 39(7), 547-568. doi:10.2165/00007256-200939070-00003

    下載圖示
    QR CODE