Wren Cion, Beato Marco, McErlain-Naylor Stuart A, Iacono Antonio Dello, de Keijzer Kevin L
School of Health and Sports Sciences, University of Suffolk, Ipswich,United Kingdom.
Institute of Health and Wellbeing, University of Suffolk, Ipswich,United Kingdom.
Int J Sports Physiol Perform. 2023 Mar 2;18(4):428-434. doi: 10.1123/ijspp.2022-0349. Print 2023 Apr 1.
It remains unknown if flywheel-assisted squats can be reliably utilized to increase power outputs and if such outputs are related.
To compare assisted and unassisted flywheel squat peak power outputs, determine their reliability, and analyze the relationship of the delta difference between peak power outputs during the squats.
Twenty male athletes attended the laboratory 6 times-performing 3 sets of 8 repetitions of assisted and unassisted squats during 2 familiarization sessions and then 3 sets of 8 repetitions during experimental sessions 3 to 6 (2 sessions for unassisted and assisted squat in randomized order, respectively).
Concentric and eccentric peak power were significantly greater during assisted squats (both P < .001, d = 1.59, d = 1.57, respectively). Rating of perceived exertion (P = .23) and eccentric:concentric ratio (P = .094) did not differ between squat conditions. Peak power measures obtained excellent reliability, while rating of perceived exertion and eccentric:concentric ratio estimates were rated as acceptable to good, with greater uncertainty. A large to very large correlation (r = .77) was found between concentric and eccentric peak power delta difference of assisted and unassisted squats.
Greater concentric outputs during assisted squats induce greater eccentric outputs and obtain greater mechanical load. Peak power is a reliable metric for monitoring flywheel training, whereas the eccentric:concentric ratio should be used with caution. Eccentric and concentric peak power are strongly related during flywheel squats, evidencing the need to maximize the concentric output to enhance the eccentric output.
飞轮辅助深蹲是否能可靠地用于提高功率输出以及这些输出是否相关仍不清楚。
比较辅助和非辅助飞轮深蹲的峰值功率输出,确定其可靠性,并分析深蹲过程中峰值功率输出的差值之间的关系。
20名男性运动员到实验室进行6次测试,在2次熟悉训练中进行3组,每组8次的辅助和非辅助深蹲,然后在第3至6次实验训练中进行3组,每组8次(分别以随机顺序进行2次非辅助和辅助深蹲训练)。
辅助深蹲时的向心和离心峰值功率显著更高(均P <.001,效应量分别为d = 1.59,d = 1.57)。主观用力感觉评分(P =.23)和离心与向心比率(P =.094)在不同深蹲条件下没有差异。峰值功率测量具有出色的可靠性,而主观用力感觉评分和离心与向心比率估计被评为可接受至良好,但不确定性更大。辅助和非辅助深蹲的向心和离心峰值功率差值之间存在大到非常大的相关性(r =.77)。
辅助深蹲时更大的向心输出会导致更大的离心输出并获得更大的机械负荷。峰值功率是监测飞轮训练的可靠指标,而离心与向心比率应谨慎使用。在飞轮深蹲过程中,离心和向心峰值功率密切相关,这表明需要最大化向心输出以提高离心输出。
