强化偏心负荷和替代性成套结构:阻力训练中潜在协同作用的叙述性回顾。

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS ACS Applied Bio Materials Pub Date : 2024-11-01 Epub Date: 2024-09-20 DOI:10.1519/JSC.0000000000004942
Sungwon Chae, Kurt W McDowell, Marten L Baur, S Alexander Long, James J Tufano, Michael H Stone
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引用次数: 0

摘要

Abstract: Chae, S, McDowell, KW, Baur, ML, Long, SA, Tufano, JJ, and Stone, MH.强化偏心负荷和替代性成套结构:阻力训练中潜在协同作用的叙述性综述。J Strength Cond Res XX(X):000-000,2024-随着时间的推移,运动员逐渐适应了训练,发展他们的力量和功率变得越来越困难。在传统的阻力训练策略中,可以通过增加训练量或负荷来提供新的刺激,从而突破训练的瓶颈。然而,生理压力指标会随着训练量或负荷的增加而增加,这是先天不足。在这种情况下,练习者们就会努力开发一些非常规策略,在增加训练刺激的同时调整疲劳程度。有报道称,使用偏心超负荷的加重偏心负荷(AEL)和使用组内休息的替代组结构(AS)这两种编程策略可分别增加训练刺激和缓解疲劳。重要的是,当在不同情况下合并 AEL 和 AS 时,可以同时实现这两种益处。由于AEL和AS会产生不同的结果,因此何时以及如何将它们整合到周期训练中是非常重要的。此外,规定偏心超负荷和训练间歇需要考虑后勤因素,这些都需要加以解决。本综述讨论了 AEL 和 AS 的科学和实用方面,以进一步优化力量和功率适应性。本综述讨论了(a)哪种战术对某个区块有效的科学证据,(b)潜在的实际应用,以及(c)相关讨论和未来研究方向。
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Accentuated Eccentric Loading and Alternative Set Structures: A Narrative Review for Potential Synergies in Resistance Training.

Abstract: Chae, S, McDowell, KW, Baur, ML, Long, SA, Tufano, JJ, and Stone, MH. Accentuated eccentric loading and alternative set structures: A narrative review for potential synergies in resistance training. J Strength Cond Res 38(11): 1987-2000, 2024-As athletes become adapted to training over time, it becomes more difficult to develop their strength and power. In a conventional resistance training strategy, volume or load may be increased to provide novel stimuli to break through a plateau. However, physiological stress markers increase with increased volume or load, which is an innate shortcoming. In that case, practitioners strive to develop unconventional strategies that could increase training stimuli while adjusting fatigue. Two programming tactics, accentuated eccentric loading (AEL) using eccentric overload and alternative set structures (AS) using intraset rests, have been reported to increase training stimuli and alleviate fatigue, respectively. Importantly, when merging AEL and AS in various contexts, the 2 benefits could be accomplished together. Because AEL and AS cause different outcomes, it is important to deal with when and how they may be integrated into periodization. Moreover, prescribing eccentric overload and intraset rests requires logistical considerations that need to be addressed. This review discusses the scientific and practical aspects of AEL and AS to further optimize strength and power adaptations. This review discusses (a) scientific evidence as to which tactic is effective for a certain block, (b) potential practical applications, and (c) related discussions and future research directions.

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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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