目的：本研究探討運用慣性阻力訓練機或槓鈴誘發活化增能作用，對於隨後爆發力表現的影響。方法：以16位大專公開組田徑短距離選手為受試者，先進行慢跑與動態伸展之預備熱身，預備熱身結束會進行爆發力前測，前測結束後進行慣性阻力訓練機或槓鈴熱身，控制組則無器材熱身。器材熱身結束後5分鐘進行爆發力後測。所收集的數據以混合設計二因子變異數分析 (mixed-design two-way ANOVA) 比較不同熱身方式對爆發力表現的差異。結果：槓鈴和慣性阻力訓練機熱身後對下蹲跳之高度、力量峰值、平均發力率，以及落地跳之跳躍高度、第二峰值、平均發力率、30公尺衝刺表現皆有顯著提升(p<.05)。結論：運用慣性阻力訓練機或槓鈴熱身，對於5分鐘後的爆發力表現皆有提升作用。

Purpose: This study investigates the effects of using an inertial resistance training machine or a barbell to induce post-activation potentiation on subsequent explosive performance. Methods: Sixteen collegiate-level sprinters were recruited as participants. They initially performed preparatory warm-ups consisting of jogging and dynamic stretching. After completing the preparatory warm-ups, pre-tests for explosive power were conducted. Following the pre-tests, participants performed warm-ups using either an inertial resistance training machine or a barbell, while the control group did not use any equipment for warm-up. Five minutes after completing the equipment warm-up, post-tests for explosive power were conducted. Data collected were analyzed using mixed-design two-way ANOVA to compare the differences in explosive power performance between different warm-up methods. Results: Significant improvements (p<.05) were observed in countermovement jump height, peak power, average rate of force development and drop jump height, second peak power, average rate of force development, and 30-meter sprint performance after warming up with either the barbell or the inertial resistance training machine. Conclusion: Warming up with either the inertial resistance training machine or the barbell enhances explosive power performance five minutes after warm-up.

林正常 (1993）。運動科學與訓練。台北縣：銀河文化。
陳聰毅 (2000)。肌肉組織的伸展適應。中華體育季刊，16(4)，30-38。
陳聖峰、馬上閔、廖翌玲 (2014)。熱身運動與伸展型態對衝刺跑之影響。屏東科大體育學刊， 73-83。
張恩崇、侯彥竹、陳玫伶、戴一涵、謝振芳、相子元 (2016)。慣性式阻力訓練對排球動作表現之影響。華人運動生物力學期刊，13(1)，33-39。
曾昱軒、何仁育、鄭景峰 (2015)。活化後增能作用對提升爆發力表現之效果。中華體育季刊，29(2)，111-118。
Alter, M. J. (1990). Sport stretch. Champaign, IL: Leisure Press.
Andrade, D.C., Manzo, O., Beltrán, A.R., Alvarez, C., Del Rio, R., Toledo, C., Moran, J., & Ramirez-Campillo, R. (2020). Kinematic and neuromuscular measures of intensity during plyometric jumps. Journal of Strength and Conditioning Research, 34(12), 3395-3402.
Baker, D. (2001). A series of studies on the training of high-intensity muscle power in rugby league football players, Journal of Strength and Conditioning Research, 15(2), 198-209.
Barr, M., & Nolte, V.W. (2011). Which Measure of Drop Jump Performance Best Predicts Sprinting Speed? Journal of Strength and Conditioning Research, 25(7): 1976-82.
Bautista, M.A., Ugrinowitsch, C., Roschel, H., Lotufo, R., Ricard, M.D., & Tricoli, V.A. (2007). Intermittent exercise as a conditioning activity to induce postactivation potentiation. Journal of Strength and Conditioning Research, 21, 837-840.
Beato M, Bigby AEJ, De Keijzer KL, Nakamura FY, Coratella G, & McErlain-Naylor SA. (2019). Post-activation potentiation effect of eccentric overload and traditional weightlifting exercise on jumping and sprinting performance in male athletes. PLoS One, 14(9).
Beato, M., McErlain-Naylor, S.A., Halperin, I., & Iacono, A.D. (2020). Current evidence and practical applications of flywheel eccentric overload exercise as postactivation potentiation protocols: A brief review. Journal of sports physiology and performance, 15, 154-161.
Beato, M., Stiff, A., & Coratella, G. (2021). Effects of Postactivation Potentiation After an Eccentric Overload Bout on Countermovement Jump and Lower-Limb Muscle Strength. Journal of Strength and Conditioning Research, 35(7): 1825-1832.
Bishop, D. (2003). Warm up II-Performance changes following active warm-up and how to structure the warm up. Sports Medicine, 33,483-498.
Bobbert, M.F., & Van Soest, A.J. (1994). Effects of muscle strengthening on vertical jump height: a simulation study. Medicine and science in sports and exercise, 26(8): 1012-20.
Bobbert, M.F., Gerriten, K.G.M., Litjiens, M.C.A., & Van Soest, A.J. (1996). Why is counter-movement jump height greater than squat jump height?. Medicine and science in sports and exercise, 28(11), 1402-1412.
Bosco, M.F., & Komi, P.V. (1979). Potentiation of my electric activity of human muscles in vertical jump. Eletromyography and clinical neurophysiology, 22, 549-562.
Chiu, L.Z., Fry, A.C., Weiss, L.W., Schilling, B.K., Brown, L.E., & Smith, S.L. (2003). Postactivation potentiation response in athletic and recreationally trained individuals. Journal of Strength and Conditioning Research, 17, 671-677.
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, 5-10.
De Keijzer, K.L., McErlain-Naylor, S.A., Iacono, A.D., & Beato, M. (2020). Effect of volume on eccentric overload-induced postactivation potentiation of jumps. International journal of sports physiology and performance, 15(7): 976-981.
Dudley, G.A., Tesch, P. A., Miller, B. J., & Buchanan, P. (1991). Importance of eccentric actions in performance adaptations to resistance training. Aviation, Space, and Environmental Medicine, 62(6), 543-550.
Dobbs, W.C., Tolusso, D.V., Fedewa, M.V., & Esco, M.R. (2019). Effect of postactivation potentiation on explosive vertical jump: A systematic review and meta-analysis. The journal of strength and conditioning research, 33(7): 2009-2018.
do Carmo, E.C., De Souza, E.O., Roschel, H., Kobal, R., Ramos, H., Gil, S., & Tricoli, V. (2021). Self-selected rest interval improves vertical jump post-activation potentiation. The journal of strength and conditioning research, 35(1): 91-96.
Ebben, W.P., & Watts, P.B. (1998). A review of combined weight training and plyometric training modes: Complex training. Strength and conditioning journal, 20(5), 18-27.
Ebben, W.P. (2006). A brief review of concurrent activation potentiation: Theoretical and practical constructs. Journal of Strength and Conditioning Research, 20, 985-991.
Finni, T., Ikegawa, S., & Komi, P.V. (2001). Concentric force enhancement during human movement. Acta Physiologica Scandinavica, 173(4): 369-77.
Garbisu-Hualde, A., & Santos-Consejero, J. (2021). Post-Activation Potentiation in Strength Training: A Systematic Review of the Scientific Literature. Journal of human kinetic, 78(1): 141-150.
Hamada, T., Sale, D.G., MacDougall, J.D., Tarnopolsky, M.A. (2000). Postactivation potentiation, fiber type, and twitch contraction time in human knee extensor muscles. Journal of Applied Physiology, 88(6): 2131-2137.
Hoyo, M., de Torre, A., de la Pradas, F., Sanudo, B., Carrasco, B., Mateo- Cortes, J., Dominguez-Cobo, S., Fernandes, O., & Gonzalo-Skok, O. (2014). Effects of eccentric overload bout on change of direction and performance in soccer players. International journal of sports medicine, 36(4): 308-14.
Hodgson, M., Docherty, D., & Robbons, D. (2005). Post-activation potentiation : Underlying physiology and implications for motor performance. Sports medicine, 35(7), 585-595.
Jenson, 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): 345-9.
Kilduff, L., Owen, N., Bevan, H., Bennett, M., Kingsley, M., & Cunningham, D. (2008). Influence of recovery time on post-activation potentiation in professional rugby players. Journal of sport science, 26(8): 795-802.
Loturco, I., D'Angelo, R.A., Fernandes, V., Gil, S., Kobal, R., Cal Abad, C.C., Kitamura, K., & Nakamura, F.Y. (2015). Relationship between sprint ability and loaded/unloaded jump tests in elite sprinters. Journal of Strength and Conditioning Research, 29(3): 758-64.
Lowery, R.P., Duncan, N.M., Loenneke, J.P., Sikorski, E.M., Marshall A Naimo, Brown, L.E., Wilson, F.G., & Wilson, J.M. (2012). The effects of potentiating stimuli intensity under varying rest periods on vertical jump performance and power. Journal of Strength and Conditioning Research, 26(12): 3320-5.
Magnusson, P., & Renström, P. (2006). The European College of Sports Sciences Position statement: The role of stretching exercises in sports. European Journal of Sport Science, 6(2), 87-91.
McGowan, C.J., Pyne, D.B., Thompson, K.G. & Rattray, B. (2015). Warm-up strategies for sport and exercise: mechanisms and applications. Sports Med, 45(11):1523-46.
Michaut, A., Babault, N., & Pousson, M. (2004). Specific effects of eccentric training on muscular fatigability. International Journal of Sports Medicine, 25, 278-283.
Miyamoto, N., Kanehisa, H., Fukunaga, T., & Kawakami, Y. (2010). Effect of postactivation potentiation on the maximal voluntary isokinetic concentric torque in humans. Journal of Strength and Conditioning Research, 25(1): 186-92.
Morgan, K.A., McGrath, T., Marshell, B. M., & Wallace, E. S. (2009). Dynamic stretching and golf swing performance. International Journal of Sports Medicine, 30(02), 113-118.
Opplert, J., & Babault, N. (2018). Acute Effects of Dynamic Stretching on Muscle Flexibility and Performance: An Analysis of the Current Literature. Sports medicine, 48(2): 299-325.
Pearce, A.J., Rowe, G.S., & Whyte, D.G. (2012). Neural conduction and excitability following a simple warm up. Journal of Science and Medicine in Sport, 15(2):164-8.
Peng, H., Zhan, D., Song, C., Chen, Z., Gu, C., Wang, I., & Wang, L. (2021). Acute effects of squats using elastic bands on postactivation potentiation. Journal of strength and conditioning research, 35(12): 3334-3340.
Perrier, E.T., Pavol, M.J., & Hoffman, M.A. (2011). The acute effects of a warm-up including static or dynamic stretching on countermovement jump height, reaction time, and flexibility. Journal of strength and conditioning research, 25(7): 1925-31.
Plakoutsis, G., Zapantis, D., Panagiotopoulou, E.M., Paraskevopoulos, E., Moutzouri, M., Koumantakis, G.A., & Papamdreou, M. (2023). Reliability and validity of the portable kforce plates for measuring countermovement jump (CMJ). Journal of applied sciences, 13(20),11200.
Rassier, D.E., & Macintosh, B.R. (2000). Coexistence of potentiation and fatigue in skeletal muscle. Brazilian journal of medical and biological research, 33(5): 499-508.
Romero-Rodriguez, D., Gual., G., & Tesch, P.A. (2011). Efficacy of an inertial resistance training paradigm in the treatment of patellar tendinopathy in athletes: a case-series study. Physical therapy in sport, 12(1): 43-48.
Sale, D., G. (2002). Postactivation potentiation: role in human performance. Exercise and sport sciences review, 30(3): 138-43.
Spudic, D., Dakskobler, J., & Stirn, I. (2023). Differences in post-activation potentiation post-activation performance enhancement between flywheel and barbell squat protocols. Kinesiologia Slovenica, 29(1): 5-29.
Su, H., Chang, N.J., Wu, W.L., Guo, L.Y., & Chu, Y.H. (2017). Acute effects of foam rolling, static stretching, and dynamic stretching during warm-ups on muscular flexibility and strength in young adults. J Sport Rehabil, 26(6): 469-477.
Thomas, R.B., Roger, W.E., & Dan, W. (2000). Resistance training. Essentials of strength training and conditioning, 95-425.
Young, W.B., Jenner, A., & Griffiths, K. (1998). Acute enhancement of power performance from heavy load squats. Journal of Strength and Conditioning Research, 12: 82-84.