INSERM UMR1093-CAPS, Université Bourgogne Franche-Comté, UFR des Sciences du Sport, Dijon, France.
Scand J Med Sci Sports. 2022 Jan;32(1):45-59. doi: 10.1111/sms.14053. Epub 2021 Sep 26.
This study aimed to compare neuromuscular alterations and perceptions of effort and muscle pain induced by concentric and eccentric cycling performed at the same power output or effort perception. Fifteen participants completed three 30-min sessions: one in concentric at 60% peak power output (CON) and two in eccentric, at the same power output (ECC ) or same perceived effort (ECC ). Muscle pain, perception of effort, oxygen uptake as well as rectus femoris and vastus lateralis electromyographic activities were collected when pedaling. The knee extensors maximal voluntary contraction (MVC) torque, the torque evoked by double stimulations at 100 Hz and 10 Hz (Dt100; Dt10), and the voluntary activation level (VAL) were evaluated before and after exercise. Power output was higher in ECC than CON (89.1 ± 23.3% peak power). Muscle pain and effort perception were greater in CON than ECC (p < 0.03) while muscle pain was similar in CON and ECC (p > 0.43). MVC torque, Dt100, and VAL dropped in all conditions (p < 0.04). MVC torque (p < 0.001) and the Dt10/ Dt100 ratio declined further in ECC (p < 0.001). Eccentric cycling perceived as difficult as concentric cycling caused similar muscle pain but more MVC torque decrease. A given power output induced lower perceptions of pain and effort in eccentric than in concentric yet similar MVC torque decline. While neural impairments were similar in all conditions, eccentric cycling seemed to alter excitation-contraction coupling. Clinicians should thus be cautious when setting eccentric cycling intensity based on effort perception.
本研究旨在比较在相同功率输出或感觉用力下进行向心和离心运动时,神经肌肉的变化以及引起的肌肉疲劳感和肌肉酸痛感。15 名参与者完成了三个 30 分钟的运动阶段:一个向心运动(CON)阶段,以 60%的峰值功率输出(CON),两个离心运动(ECC)阶段,在相同的功率输出(ECC)或相同的感觉用力(ECC)下进行。在踩踏时收集了肌肉酸痛、感觉用力、耗氧量以及股直肌和股外侧肌的肌电图活动。在运动前后评估了膝关节伸肌的最大自主收缩(MVC)扭矩、100Hz 和 10Hz 双刺激诱发的扭矩(Dt100;Dt10)以及自愿激活水平(VAL)。ECC 的功率输出高于 CON(89.1±23.3%峰值功率)。CON 的肌肉酸痛和疲劳感强于 ECC(p<0.03),而 CON 和 ECC 的肌肉酸痛感相似(p>0.43)。所有条件下的 MVC 扭矩、Dt100 和 VAL 均下降(p<0.04)。ECC 中 MVC 扭矩(p<0.001)和 Dt10/Dt100 比值进一步下降(p<0.001)。感觉用力与向心运动相同的离心运动引起相似的肌肉酸痛,但引起更大的 MVC 扭矩下降。给定的功率输出在离心运动中引起的疼痛和疲劳感低于向心运动,但引起相似的 MVC 扭矩下降。虽然所有条件下的神经损伤相似,但离心运动似乎改变了兴奋-收缩耦联。因此,临床医生在根据感觉用力设定离心运动强度时应谨慎。
