Gavin James P, Myers Stephen D, Willems Mark E T
Department of Sport & Exercise Sciences, University of Chichester, Chichester, UK.
Department of Sport & Exercise Sciences, University of Chichester, Chichester, UK.
J Electromyogr Kinesiol. 2015 Feb;25(1):53-60. doi: 10.1016/j.jelekin.2014.10.005. Epub 2014 Oct 28.
The aim of this study was to examine the effect of low muscle glycogen on the neuromuscular responses to maximal eccentric contractions. Fourteen healthy men (22 ± 3 years) performed single-leg cycling (20 min at ~75% maximal oxygen uptake (V̇O2 max); eight 90 s sprints at a 1:1 work-to-rest ratio (5% decrements from 90% to 55% V̇O2 max until exhaustion) the evening before 100 eccentric (1.57 rads(-1)) with reduced (RED) and normal glycogen (NORM). Neuromuscular responses were measured during and up to 48 h after with maximal voluntary and involuntary (twitch, 20 Hz and 50 Hz) isometric contractions. During eccentric contractions, peak torque decreased (RED: -16.1 ± 2.5%; NORM: -6.2 ± 5.1%) and EMG frequency increased according to muscle length. EMG activity decreased for RED only. After eccentric contractions, maximal isometric force was reduced up to 24h for NORM (-13.5 ± 5.8%) and 48 h for RED (-7.4 ± 10.9%). Twelve hours after eccentric contractions, twitch force and the 20:50 Hz ratio were decreased for RED but not for NORM. Immediate involuntary with prolonged voluntary force loss suggests that reduced glycogen is associated with increased susceptibility to mild muscle-damaging eccentric exercise with contributions of peripheral and central mechanisms to be different during recovery.
本研究的目的是检验低肌肉糖原对最大离心收缩的神经肌肉反应的影响。14名健康男性(22±3岁)在进行100次离心收缩(1.57弧度/秒)前一晚进行单腿骑行(以约75%最大摄氧量(V̇O2 max)骑行20分钟;以1:1的工作-休息比进行8次90秒冲刺(从90% V̇O2 max到55% V̇O2 max每次递减5%直至力竭),分别使糖原降低(RED)和保持正常(NORM)。在最大自主和非自主(单刺激、20赫兹和50赫兹)等长收缩过程中及之后48小时测量神经肌肉反应。在离心收缩过程中,峰值扭矩降低(RED组:-16.1±2.5%;NORM组:-6.2±5.1%),肌电图频率随肌肉长度增加。仅RED组的肌电图活动降低。离心收缩后,NORM组最大等长力在24小时内降低(-13.5±5.8%),RED组在48小时内降低(-7.4±10.9%)。离心收缩12小时后,RED组的单刺激力和20:50赫兹比值降低,而NORM组未降低。即刻非自主收缩伴长时间自主收缩力丧失表明,糖原降低与轻度肌肉损伤性离心运动易感性增加有关,且在恢复过程中外周和中枢机制的作用不同。
