速度型训练最佳实践的叙述性回顾:收缩意图与运动速度的重要性。

David G Behm, Andreas Konrad, Masatoshi Nakamura, Shahab Alizadeh, Robyn Culleton, Saman Hadjizadeh Anvar, Liam T Pearson, Rodrigo Ramirez-Campillo, Digby G Sale
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引用次数: 0

摘要

许多运动都需要高强度和高功率输出的爆发性动作,这对神经肌肉系统提出了独特的挑战。传统的阻力训练可以提高肌肉力量、功率、耐力和运动范围;然而,有关其对运动成绩(如冲刺速度、敏捷性和跳跃高度)影响的证据仍然相互矛盾。阻力训练动作的特异性(包括速度、收缩类型和关节角度)会影响运动成绩,在将训练模式与目标体育活动相匹配时具有优势。然而,与运动速度无关,爆发性收缩(弹道)的意图也表现出了高速度特异性训练适应性。本综述旨在评估爆发力或弹道收缩意向对速度特异性训练适应性的影响。这种运动意向可能主要引起运动传出神经的适应性,包括运动单元募集和速度编码增强。利用快速拉伸缩短周期(SSC)动作的保力跑(Plyometrics)可能会提高高速运动的效率和肌肉活化,从而通过更快的偏心力吸收、缩短摊销期以及更快地过渡到爆发性同心收缩等适应性训练来改善运动控制。这篇叙述性综述综合了主要文献,回答了究竟是收缩意向还是运动速度对提高运动成绩更为重要,最终主张采用综合方法进行阻力训练,为特定运动的爆发力动作量身定制。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
A narrative review of velocity-based training best practice: the importance of contraction intent versus movement speed.

Explosive movements requiring high force and power outputs are integral to many sports, posing distinct challenges for the neuromuscular system. Traditional resistance training can improve muscle strength, power, endurance, and range of motion; however, evidence regarding its effects on athletic performance, such as sprint speed, agility, and jump height, remains conflicting. The specificity of resistance training movements, including velocity, contraction type, and joint angles affects performance outcomes, demonstrates advantages when matching training modalities with targeted sports activities. However, independent of movement speed, the intent to contract explosively (ballistic) has also demonstrated high velocity-specific training adaptations. The purpose of this narrative review was to assess the impact of explosive or ballistic contraction intent on velocity-specific training adaptations. Such movement intent may predominantly elicit motor efferent neural adaptations, including motor unit recruitment and rate coding enhancements. Plyometrics, which utilize rapid stretch-shortening cycle movements, may augment high-speed movement efficiency and muscle activation, possibly leading to improved motor control through adaptations like faster eccentric force absorption, reduced amortization periods, and quicker transitions to explosive concentric contractions. An optimal training paradigm for power and performance enhancement might involve a combination of maximal explosive intent training with heavier loads and plyometric exercises with lighter loads at high velocities. This narrative review synthesizes key literature to answer whether contraction intent or movement speed is more critical for athletic performance enhancement, ultimately advocating for an integrative approach to resistance training tailored for sports-specific explosive action.

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