Faster Club Hockey Athletes Have Reduced Upper Leg Muscular Co-contraction During Maximal-Speed Sprinting

Jason Williams, Joseph C. Watso
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Abstract

Abstract Background Most electromyographic (EMG) data for muscular activation patterns during ambulation is limited to older adults with existing chronic disease(s) walking at slow velocities. However, we know much less about the lower extremity muscle co-contraction patterns during sprinting and its relation to running velocity (i.e., performance). Therefore, we compared lower extremity muscular activation patterns during sprinting between slower and faster collegiate club hockey athletes. We hypothesized that faster athletes would have lower EMG-assessed co-contraction index (CCI) values in the lower extremities during over-ground sprinting. Results Twenty-two males (age = 21[1] yrs (median[IQR]); body mass = 77.1 ± 8.6 kg (mean ± SD)) completed two 20-m over-ground sprints with concomitant EMG and asynchronous force plate testing. We split participants using median running velocity (FAST: 8.5 ± 0.3 vs. SLOW: 7.7 ± 0.3 Conclusions m/s, p  < 0.001). Faster athletes had lower CCI between the rectus femoris and biceps femoris (group: p  = 0.05), particularly during the late swing phase of the gait cycle (post hoc p  = 0.02). In agreement with our hypothesis, we found lower CCI values in the upper leg musculature during maximal-speed over-ground sprinting. These data from collegiate club hockey athletes corroborate other reports in clinical populations that the coordination between the rectus femoris and biceps femoris is associated with linear over-ground sprinting velocity.
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速度更快的俱乐部曲棍球运动员在最大速度冲刺时上肢肌肉协同收缩减少
摘要 背景 大多数关于行走时肌肉激活模式的肌电图(EMG)数据仅限于患有慢性疾病的老年人以慢速行走。然而,我们对短跑时的下肢肌肉协同收缩模式及其与跑步速度(即表现)的关系却知之甚少。因此,我们比较了速度较慢和速度较快的大学俱乐部曲棍球运动员在冲刺时的下肢肌肉激活模式。我们假设速度较快的运动员在地面冲刺时下肢的EMG评估的共收缩指数(CCI)值较低。结果 22 名男性(年龄 = 21[1]岁(中位数[IQR]);体重 = 77.1 ± 8.6 千克(平均值±标清值))完成了两次 20 米超地面短跑,并同时进行了 EMG 和异步力板测试。我们使用跑步速度中位数(快:8.5 ± 0.3 vs. 慢:7.7 ± 0.3 结论 m/s,p < 0.001)对参与者进行了分组。速度较快的运动员股直肌和股二头肌之间的 CCI 较低(组:p = 0.05),尤其是在步态周期的后期摆动阶段(p = 0.02)。与我们的假设一致,我们发现在最大速度地面冲刺时,上肢肌肉的 CCI 值较低。这些来自大学俱乐部曲棍球运动员的数据证实了其他临床人群的报告,即股直肌和股二头肌之间的协调与直线地面冲刺速度有关。
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