膝关节伸肌在个性化等速角速度下的扭矩和力量。

IF 1.4 4区医学 Q4 MEDICINE, RESEARCH & EXPERIMENTAL

Journal of International Medical Research Pub Date : 2024-07-01 DOI:10.1177/03000605241262186

Jiheon Hong, Jonggeun Woo, Jeongwoo Jeon

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引用次数: 0

摘要

目的：现有的等动收缩是通过标准化角速度来表征的，这可能会引起不同的适应性。在此，我们根据个性化角速度（IAV）对膝关节伸肌的等动参数变化进行了描述：我们对 19 名年轻、健康的男性进行了横断面研究。方法：我们对 19 名年轻健康男性进行了横断面研究。我们使用等张力测力计的等张模式测量了膝关节同心伸展的最大角速度（MAV）。进行等长和等速（角速度分别为每个人最大角速度的 100%、70%、40% 和 10%）伸膝收缩，并记录峰值扭矩和平均功率：除等长收缩（233.36 ± 47.85）和 MAV 的 10%（208 ± 48.55）外，峰值扭矩随着 IAV 的增加而明显下降（40%、70% 和 100% 时分别为 129.42 ± 25.04、84.37 ± 20.97 和 56.42 ± 16.18 牛米）。在平均功率方面，10% 的 MAV（74.52 ± 20.84 W）明显低于较快的 IAV（在 40%、70% 和 100% 时分别为 176.32 ± 49.64 W、161.53 ± 56.55 W 和 145.95 ± 50.64 W），而 100% 则明显低于 40%：结论：在保持扭矩的同时提高功率输出的最佳等动收缩 IAV 为 MAV 的 10%至 40%。IAV 可同时反映力量的速度和力量成分，因为个体的角速度并不相同。

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Torque and power of knee extensor muscles at individualized isokinetic angular velocities.

Objective: Existing isokinetic contractions are characterized using standardized angular velocities, which can induce differing adaptations. Here, we characterized the variation in the isokinetic parameters of knee extensors according to individualized angular velocity (IAV).

Methods: We performed a cross-sectional study of 19 young, healthy men. We measured the maximum angular velocity (MAV) of concentric knee extension using the isotonic mode of an isokinetic dynamometer. Isometric and isokinetic (at angular velocities corresponding to 100%, 70%, 40%, and 10% of each individual's MAV) knee extensor contractions were performed, and the peak torque and mean power were recorded.

Results: Peak torque significantly decreased with increasing IAV (129.42 ± 25.04, 84.37 ± 20.97, and 56.42 ± 16.18 Nm at 40%, 70%, and 100%, respectively), except for isometric contraction (233.36 ± 47.85) and at 10% of MAV (208 ± 48.55). At the mean power, 10% of MAV (74.52 ± 20.84 W) was significantly lower than the faster IAV (176.32 ± 49.64, 161.53 ± 56.55, and 145.95 ± 50.64 W at 40%, 70%, and 100%, respectively), and 100% was significantly lower than 40%.

Conclusion: The optimized IAV for isokinetic contraction to improve power output while maintaining torque is 10% to 40% of MAV. IAV may reflect both the velocity and force components of power because individuals do not have the same angular velocity.

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来源期刊

Journal of International Medical Research 医学-药学

CiteScore

3.20

自引率

0.00%

发文量

555

审稿时长

1 months

期刊介绍： _Journal of International Medical Research_ is a leading international journal for rapid publication of original medical, pre-clinical and clinical research, reviews, preliminary and pilot studies on a page charge basis. As a service to authors, every article accepted by peer review will be given a full technical edit to make papers as accessible and readable to the international medical community as rapidly as possible. Once the technical edit queries have been answered to the satisfaction of the journal, the paper will be published and made available freely to everyone under a creative commons licence. Symposium proceedings, summaries of presentations or collections of medical, pre-clinical or clinical data on a specific topic are welcome for publication as supplements. Print ISSN: 0300-0605