University of Virginia, Department of Mechanical and Aerospace Engineering, Center for Applied Biomechanics, 1011 Linden Avenue, Charlottesville, VA 22902, USA.
Gait Posture. 2010 Feb;31(2):279-83. doi: 10.1016/j.gaitpost.2009.11.005.
We have reported that peak hip extension is nearly identical in walking and running, suggesting that anatomical constraints, such as flexor muscle tightness may limit the range of hip extension. To obtain a more mechanistic insight into mobility at the hip and pelvis we examined the lengths of the muscle-tendons units crossing the hip joint. Data defining the three-dimensional kinematics of 26 healthy runners at self-selected walking and running speeds were obtained. These data were used to scale and drive musculoskeletal models using OpenSIM. Muscle-tendon unit (MTU) lengths were calculated for the trailing limb illiacus, rectus femoris, gluteus maximus, and biceps femoris long head and the advancing limb biceps femoris and gluteus maximus. The magnitude and timing of MTU length peaks were each compared between walking and running. The peak length of the right (trailing limb) illiacus MTU, a pure hip flexor, was nearly identical between walking and running, while the maximum length of the rectus femoris MTU, a hip flexor and knee extensor, increased during running. The maximum length of the left (leading limb) biceps femoris was also unchanged between walking and running. Further, the timing of peak illiacus MTU length and peak contralateral biceps femoris MTU length occurred essentially simultaneously during running, at a time during gait when the hamstrings are most vulnerable to stretch injury. This latter finding suggests exploring the role for hip flexor stretching in combination with hamstring stretching to treat and/or prevent running related hamstring injury.
我们曾报道过,在行走和跑步时,髋关节伸展的峰值几乎相同,这表明解剖学限制(如屈肌紧张)可能限制了髋关节伸展的幅度。为了更深入地了解髋关节和骨盆的活动度,我们检查了穿过髋关节的肌肉-肌腱单位的长度。我们获得了 26 名健康跑步者以自选择的行走和跑步速度的三维运动学数据。这些数据用于缩放和驱动 OpenSIM 中的肌肉骨骼模型。计算了滞后肢体髂腰肌、股直肌、臀大肌和股二头肌长头以及前进肢体股二头肌和臀大肌的肌肉-肌腱单元(MTU)长度。比较了行走和跑步时 MTU 长度峰值的幅度和时间。作为纯髋关节屈肌的右侧(滞后肢体)髂腰肌 MTU 的峰值长度在行走和跑步时几乎相同,而作为髋关节屈肌和膝关节伸肌的股直肌 MTU 的最大长度在跑步时增加。左侧(领先肢体)股二头肌的最大长度在行走和跑步之间也没有变化。此外,在跑步时,髂腰肌 MTU 长度和对侧股二头肌 MTU 长度的峰值时间基本同时发生,此时腘绳肌最容易受到伸展损伤。这一发现表明,应该探索髋关节屈肌伸展与腘绳肌伸展相结合的方法,以治疗和/或预防与跑步相关的腘绳肌损伤。
