Longo Stefano, Cè Emiliano, Rampichini Susanna, Devoto Michela, Venturelli Massimo, Limonta Eloisa, Esposito Fabio
Department of Biomedical Sciences for Health (SCIBIS), University of Milan, Via G. Colombo 71, 20133 Milan, Italy.
Department of Biomedical Sciences for Health (SCIBIS), University of Milan, Via G. Colombo 71, 20133 Milan, Italy.
J Electromyogr Kinesiol. 2017 Apr;33:83-93. doi: 10.1016/j.jelekin.2017.02.001. Epub 2017 Feb 10.
The study was aimed at assessing possible correlations of the electromechanical delay components during muscle contraction (Delay) and relaxation (R-Delay), with muscle-tendon unit (MTU), muscle, and tendon stiffness before and after static stretching (SS). Plantarflexor muscles' maximum voluntary torque (T) was measured in 18 male participants (age 24±3yrs; body mass 76.4±8.9kg; stature 1.78±0.09m; mean±SD). During T, surface electromyogram (EMG), mechanomyogram, and force signals were detected. Delay and R-Delay with their electrochemical and mechanical components were calculated. Passive torque and myotendinous junction displacement were assessed at 0°, 10° and 20° of dorsiflexion to determine MTU, muscle and tendon stiffness. The same protocol was repeated after SS. Delay, R-Delay and their mainly mechanical components correlated with MTU, muscle and tendon stiffness, both before (R from 0.562 to 0.894; p<0.001) and after SS (R from 0.726 to 0.955; p<0.001). SS decreased T (-14%; p<0.001) and lengthened almost all the Delay and R-Delay components (from +5.9% to +30.5%; p<0.05). Correlations were found only between stiffness and the mechanical components of Delay and R-Delay. Correlations persisted after SS but delays increased to a higher extent than stiffness, indicating a complexity of the relationship between stiffness and delays that will be discussed in the manuscript.
该研究旨在评估肌肉收缩(延迟)和放松(R-延迟)过程中的机电延迟成分与静态拉伸(SS)前后的肌肉-肌腱单元(MTU)、肌肉和肌腱刚度之间的可能相关性。在18名男性参与者(年龄24±3岁;体重76.4±8.9kg;身高1.78±0.09m;平均值±标准差)中测量了跖屈肌的最大自主扭矩(T)。在测量T期间,检测表面肌电图(EMG)、机械肌电图和力信号。计算了延迟和R-延迟及其电化学和机械成分。在背屈0°、10°和20°时评估被动扭矩和肌腱结合处位移,以确定MTU、肌肉和肌腱刚度。SS后重复相同的方案。延迟、R-延迟及其主要机械成分与MTU、肌肉和肌腱刚度在SS前(R从0.562至0.894;p<0.001)和SS后(R从0.726至0.955;p<0.001)均相关。SS使T降低(-14%;p<0.001),并使几乎所有延迟和R-延迟成分延长(从+5.9%至+30.5%;p<0.05)。仅在刚度与延迟和R-延迟的机械成分之间发现相关性。SS后相关性仍然存在,但延迟增加的程度高于刚度,这表明刚度与延迟之间关系的复杂性,将在本文中进行讨论。
