针对腿筋强化训练和短跑的后动力链的性别特异性肌肉活动和运动学：一项横断面研究。

IF 2.1 Q3 SPORT SCIENCES

International Journal of Sports Physical Therapy Pub Date : 2025-10-01 eCollection Date: 2025-01-01 DOI:10.26603/001c.144583

Adelso Jorge, Ralf Roth

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引用次数: 0

摘要

背景：不同性别的下肢神经肌肉和运动学特性可能会影响运动和短跑时后动力链相互作用的方式，潜在地改变腿筋强化运动的选择。目的：本研究比较了四种运动（摇臂、永动机运动快、慢[PMfast和PMslow]和北欧腿筋运动）在模拟短跑样肌肉活动和运动学方面的性别差异。方法：用表面肌电图（sEMG）测量每次运动和跑步时后动力链（股二头肌[BFlh]、半腱肌[ST]、臀大肌[GMax]和腓肠肌内侧肌[GCM]）的肌肉活动，并以个人最大冲刺速度的75%在跑步机上跑步。表面肌电信号数据归一化为最大冲刺。采用3d运动捕捉技术评估髋关节和膝关节角度。结果：男8名，女12名，年龄22.4岁±3.1岁，体重61.0 kg±7.1，身高1.67 m±0.07。在每个测试任务中，女性的峰值（MD: 31, p= 0.003, [95%CI: 14-48], SMD: 1.1）和平均腘绳肌活动（MD: 16, p< 0.001, [95%CI: 8-24], SMD: 1.4）都更大。性别和肌肉的相互作用表明，女性在ST方面表现出更高的峰值（MD: 39, p=0.002, [95%CI: 21-60], SMD: 1.3）和平均活动（MD: 20, p< 0.001, [95%CI: 12-29], SMD: 1.5），而在BFlh方面则没有。肌肉活动峰值关节角显示，女性在PMfast期间髋部角度显著增大（MD: 30°，p= 0.014, [95%CI: 15-46°],SMD: 2.1），与BFlh相比，ST的膝关节屈曲角度总体上显著小于BFlh （MD: 7°，p= 0.02, [95%CI: 1-12°],SMD: 0.4）。腿筋拉伸应力和肌肉选择性均无显著的性别差异。讨论：除了女性在所有任务中都表现出更大的腘绳肌，特别是ST活动外，只发现了轻微的运动学差异，没有发现协同肌的性别差异。需要进一步研究性别特异性腿筋神经肌肉策略。证据等级：3b。

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Sex-Specific Muscle Activity and Kinematics of the Posterior Kinetic Chain Targeting Hamstring Strengthening Exercises and Sprinting: A Cross-Sectional Study.

Background: Neuromuscular and kinematic peculiarities in the lower extremities between the sexes could influence the way the posterior kinetic chain interacts during exercises and sprinting, potentially altering hamstring strengthening exercise selection.

Purpose: This study compared sex-differences in four exercises (the rocker, perpetuum mobile fast and slow [PMfast and PMslow] and the Nordic Hamstring exercise) on their potential to simulate sprint-like muscle activity and kinematics.

Methods: Muscle activity of the posterior kinetic chain (biceps femoris [BFlh], semitendinosus [ST], gluteus maximus [GMax] and gastrocnemius medialis [GCM]) was measured with surface electromyography (sEMG) during each exercise and treadmill running at 75% of the individual maximal sprint velocity. sEMG data was normalized to maximal sprinting. 3D-motion capture was employed to assess hip and knee angles.

Results: Eight male and 12 female athletes were included (age: 22.4 years ± 3.1; body mass: 61.0 kg ± 7.1; height: 1.67 m ± 0.07). Peak (MD: 31, p= 0.003, [95%CI: 14-48], SMD: 1.1) and average hamstring activity (MD: 16, p< 0.001, [95%CI: 8-24], SMD: 1.4) was greater in females for every examined task. A sex and muscle interaction showed that females displayed significantly greater peak (MD: 39, p=0.002, [95%CI: 21-60], SMD: 1.3) and mean activity (MD: 20, p< 0.001, [95%CI: 12-29], SMD: 1.5) for ST but not BFlh. Joint angles of peak muscle activity showed significantly greater hip angles during the PMfast in females (MD: 30°, p= 0.014, [95%CI: 15-46°], SMD: 2.1) and an overall significantly smaller knee flexion angle for the ST compared to the BFlh (MD: 7°, p= 0.02, [95%CI: 1-12°], SMD: 0.4). Neither hamstring elongation stress nor muscle selectivity showed significant sex differences.

Discussion: Aside from overall display of greater hamstring, specifically ST activity in all tasks for females, only minor kinematic and no synergist muscle sex-differences were found. Further research exploring sex-specific hamstring neuromuscular strategies is needed.

Level of evidence: 3b.

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