Human Performance Laboratory, Faculty of Kinesiology, University of Calgary, Calgary, Canada.
Department of Biomedical Sciences for Health, Università degli Studi di Milano, Milan, Italy.
Scand J Med Sci Sports. 2020 Sep;30(9):1632-1641. doi: 10.1111/sms.13708. Epub 2020 May 25.
Biomechanical alterations with graded running have only been partially quantified, and the potential interactions with running speed remain unclear. We measured spatiotemporal parameters, ground reaction forces, and leg muscle activations (EMG) in nineteen adults (10F/9M) running on an instrumented treadmills at 2.50, 3.33, and 4.17 m·s and 0, ±5°, and ±10°. Step frequency illustrated a significant speed × grade interaction (P < .001) and was highest (+3%) at the steepest grade (+10°) and fastest speed (4.17 m·s ) when compared to level running (LR) at the same speed. Significant interaction was also observed for ground reaction forces (all P ≤ .047). Peak ground reaction forces in the normal direction increased with running speed during downhill running (DR) only (+9% at -10° and 4.17 m·s ). Impulse in the normal direction decreased at fastest speed and steepest DR (-9%) and uphill running (UR) (-17%) grades. Average normal loading rate increased and decreased at fastest speed and steepest DR (+52%) and UR (-28%) grades, respectively. Negative parallel impulse increased and decreased at fastest speed and steepest DR (+166%) and UR (-90%), respectively. Positive parallel impulse decreased and increased at fastest speed and steepest DR (-75%) and UR (+111%), respectively. EMG showed comparable u-shaped curves across the grades investigated, although only a change in vastus lateralis and tibilias anterior activity was detectable at the steepest grades and fastest speed. Overall, running grade and speed significantly influences spatiotemporal parameters, ground reaction forces, and muscle activations.
生物力学改变与分级跑步仅部分量化,与跑步速度的潜在相互作用仍不清楚。我们在仪器化跑步机上测量了 19 名成年人(10 名女性/9 名男性)的时空参数、地面反作用力和腿部肌肉激活(EMG),跑步速度分别为 2.50、3.33、4.17m·s 和 0、±5°和±10°。步频显示出显著的速度×坡度交互作用(P<.001),在最陡坡度(+10°)和最快速度(4.17m·s)下最高(增加 3%),与相同速度的水平跑步(LR)相比。地面反作用力也观察到显著的交互作用(所有 P≤.047)。正向地面反作用力峰值随下坡跑(DR)中跑步速度增加(在-10°和 4.17m·s 时增加 9%)。正向冲量在最快速度和最陡 DR(-9%)和上坡跑(UR)(-17%)时减小。正向平均加载率在最快速度和最陡 DR(+52%)和 UR(-28%)时增加,在相反。负向平行冲量在最快速度和最陡 DR(+166%)和 UR(-90%)时增加,分别。正向平行冲量在最快速度和最陡 DR(-75%)和 UR(+111%)时减小,分别。EMG 在整个研究坡度上显示出类似的 U 形曲线,尽管只有在最陡坡度和最快速度下才能检测到股外侧肌和胫骨前肌活动的变化。总体而言,跑步坡度和速度对时空参数、地面反作用力和肌肉激活有显著影响。
