School of Human Sciences (Exercise and Sport Science), The University of Western Australia, Crawley, WA, Australia.
Aspetar Orthopaedic and Sports Medicine Hospital, Doha, Qatar.
Eur J Appl Physiol. 2020 Dec;120(12):2785-2796. doi: 10.1007/s00421-020-04500-8. Epub 2020 Sep 26.
We determined whether running mechanics and leg muscle activity patterns for pre-activation (50 ms prior to foot contact) and loading (first half, second half and entire stance) phases vary between early, late and entire acceleration phases during repeated treadmill sprints.
Ten male athletes performed three sets of five 5-s sprint accelerations (25-s and 3-min recovery between sprints and sets, respectively) on an instrumented treadmill. Ground reaction forces and surface EMG data (root mean square values of vastus lateralis, rectus femoris, biceps femoris, gastrocnemius medialis, gastrocnemius lateralis and tibialis anterior muscles of the right leg) corresponding to early, late and entire acceleration (steps 2, 4 and 6; steps 8, 10 and 12; and all steps, respectively) have been compared.
Independently of fatigue, vertical and horizontal forces, contact time, step length, and step frequency differed as running velocity increased over different sprint acceleration sections (all P < 0.05). For pre-activation, first half, second half and entire stance phases taken separately, each of the six studied muscles displayed specific main sprint number and analysis section effects (all P < 0.05). However, there was in general no significant interaction between sprint number and analysis section (all P > 0.27).
During repeated treadmill sprints, ground reaction force variables and leg muscle activity patterns can vary between early, late and entire acceleration phases. Identification of neuro-mechanical adjustments across the gait cycle with fatigue, however, did not differ when considering all steps or only a few steps during the early or late acceleration phases.
我们旨在确定在重复跑步机冲刺过程中,早期、晚期和整个加速阶段,预激活(脚接触前 50 毫秒)和加载(前半部分、后半部分和整个支撑阶段)阶段的跑步力学和腿部肌肉活动模式是否存在差异。
10 名男性运动员在仪器化跑步机上进行了三组五次 5 秒冲刺加速(每次冲刺和组之间分别有 25 秒和 3 分钟的恢复期)。地面反作用力和表面肌电图数据(右腿股外侧肌、股直肌、股二头肌、腓肠肌内侧、腓肠肌外侧和胫骨前肌的均方根值)与早期、晚期和整个加速(第 2、4 和 6 步;第 8、10 和 12 步;以及所有步骤)相对应,对其进行了比较。
无论疲劳如何,垂直和水平力、接触时间、步长和步频在不同的冲刺加速段随跑步速度的增加而不同(所有 P<0.05)。对于预激活、前半部分、后半部分和整个支撑阶段分别考虑时,研究的 6 块肌肉中的每一块都显示出特定的主要冲刺数和分析部分的影响(所有 P<0.05)。然而,在一般情况下,冲刺数和分析部分之间没有显著的相互作用(所有 P>0.27)。
在重复的跑步机冲刺中,地面反作用力变量和腿部肌肉活动模式在早期、晚期和整个加速阶段之间可能存在差异。然而,当考虑整个步伐或仅在早期或晚期加速阶段的几个步伐时,随着疲劳的出现,神经力学调整在步态周期中的识别并没有差异。
