跟腱和髌腱的长时间被动振动会降低后续骑行任务中的用力感知。
Prolonged passive vibration of Achilles and patellar tendons decreases effort perception during subsequent cycling tasks.
作者信息
Marchand Florian, Pageaux Benjamin, Forestier Nicolas, Monjo Florian
机构信息
Interuniversity Laboratory of Human Movement Sciences, Université Savoie Mont-Blanc, Chambéry 73000, France.
École de kinésiologie et des sciences de l'activité physique (EKSAP), Faculté de médecine, Montréal, QC H3T 1J4, Canada; Centre de recherche de l'Institut universitaire de gériatrie de Montréal (CRIUGM), Montréal, QC H3W 1W5, Canada; Centre interdisciplinaire de recherche sur le cerveau et l'apprentissage (CIRCA), Montréal, QC H3T 1J4, Canada.
出版信息
J Sport Health Sci. 2025 May 24;14:101061. doi: 10.1016/j.jshs.2025.101061.
BACKGROUND
The perception of effort is a key determinant of endurance performance and a barrier to physical activity in inactive populations. From a neurophysiological viewpoint, effort perception is thought to arise from the brain processing of an efference copy of the motor command in sensory areas. However, recent research suggests that feedback from muscle spindles plays a significant role in this perception. In this study, tendon vibration protocols were employed to attenuate sensory feedback during subsequent cycling exercises. The aim was to assess whether vibration would increase cycling power output, muscle activation, and heart rate at fixed perceived effort intensities.
METHODS
Fifteen healthy young participants completed 2 experimental visits (vibration and sham). In each visit, participants performed two 3-min cycling bouts, 1 at a moderate perceived effort intensity and 1 at a strong perceived effort intensity, before (pre) and after (post) an actual or a sham vibration protocol. Vibration was applied bilaterally on the patellar and Achilles tendons for 10 min. Power output, heart rate, and vastus lateralis electromyography (VL EMG) were recorded and averaged for each bout. Absolute values as well as relative change (%) between pre and post conditions were compared across sham and vibration conditions.
RESULTS
At moderate perceived effort, power output, heart rate, and VL EMG increased post-vibration compared to pre-vibration (p < 0.05), while no difference was observed in the sham condition. At strong perceived effort, power output and VL EMG decreased post-sham (p < 0.05) but remained unchanged post-vibration. Moreover, the relative change between pre and post conditions was significantly higher in the vibration conditions compared to the sham condition for all variables.
CONCLUSION
This study shows that tendon vibration reduces effort perception during subsequent cycling bouts. This effect is likely a consequence of vibration-induced reduction in muscle spindle reafferent signaling to the brain, but this mechanism remains to be further elucidated. From an applied perspective, these findings highlight tendon vibration as a promising tool for enhancing physical activity engagement.
背景
努力感知是耐力表现的关键决定因素,也是非运动人群进行体育活动的障碍。从神经生理学角度来看,努力感知被认为源于大脑在感觉区域对运动指令传出副本的处理。然而,最近的研究表明,肌梭的反馈在这种感知中起着重要作用。在本研究中,采用肌腱振动方案来减弱后续自行车运动期间的感觉反馈。目的是评估振动是否会在固定的感知努力强度下增加自行车功率输出、肌肉激活和心率。
方法
15名健康的年轻参与者完成了2次实验性访视(振动和假刺激)。在每次访视中,参与者在实际或假振动方案之前(预)和之后(后)进行两次3分钟的自行车运动,一次是在中等感知努力强度下,一次是在强烈感知努力强度下。双侧在髌腱和跟腱上施加振动10分钟。记录每次运动的功率输出、心率和股外侧肌肌电图(VL EMG)并求平均值。比较假刺激和振动条件下预测试和后测试条件之间的绝对值以及相对变化(%)。
结果
在中等感知努力强度下,与振动前相比,振动后功率输出、心率和VL EMG增加(p < 0.05),而在假刺激条件下未观察到差异。在强烈感知努力强度下,假刺激后功率输出和VL EMG降低(p < 0.05),但振动后保持不变。此外,对于所有变量,振动条件下预测试和后测试条件之间的相对变化显著高于假刺激条件。
结论
本研究表明,肌腱振动可降低后续自行车运动期间的努力感知。这种效应可能是振动引起的向大脑的肌梭再传入信号减少的结果,但这一机制仍有待进一步阐明。从应用角度来看,这些发现突出了肌腱振动作为增强体育活动参与度的一种有前景的工具。
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