Tafazzol A, Arjmand N, Shirazi-Adl A, Parnianpour M
Department of Mechanical Engineering, Sharif University of Technology, Tehran, Iran.
Department of Mechanical Engineering, Sharif University of Technology, Tehran, Iran.
Clin Biomech (Bristol). 2014 Jan;29(1):7-13. doi: 10.1016/j.clinbiomech.2013.10.021. Epub 2013 Nov 1.
The ratio of total lumbar rotation over pelvic rotation (lumbopelvic rhythm) during trunk sagittal movement is essential to evaluate spinal loads and discriminate between low back pain and asymptomatic population.
Angular rotations of the pelvis and lumbar spine as well as their sagittal rhythm during forward flexion and backward extension in upright standing of eight asymptomatic males are measured using an inertial tracking device. The effect of variations in the lumbopelvic ratio during trunk flexion on spinal loads is quantified using a detailed musculoskeletal model.
The mean of peak voluntary flexion rotations of the thorax, pelvis, and lumbar was 121° (SD 9.9), 53.0° (SD 5.2), and 60.2° (SD 8.6), respectively. The mean lumbopelvic ratios decreased from 2.51 in 0-30° of trunk flexion to 1.34 in 90-120° range during forward bending while it increased from 1.23 in 90-120° range to 2.86 in 0-30° range during backward extension. Variations in the lumbopelvic ratio from 0.5 to 3 (with an interval of 0.25) at any trunk flexion angle generally reduced the L5-S1 compression and shear forces by up to 21 and 45%, respectively. The measured lumbopelvic ratios resulted overall in near-optimal (minimal) L5-S1 compression forces.
A simultaneous rhythm between the lumbar and pelvis movements was found during both forward and backward trunk movements. While the lumbar spine contributed more to the trunk rotation during early and final stages of forward flexion and backward extension, respectively, the pelvis contributed more during final and early stages of forward flexion and backward extension, respectively. Our healthy subjects adapted a lumbopelvic coordination that diminished L5-S1 compression force.
在躯干矢状面运动过程中,腰椎总旋转与骨盆旋转的比值(腰盆节律)对于评估脊柱负荷以及区分腰痛患者和无症状人群至关重要。
使用惯性跟踪设备测量八名无症状男性在直立站立时向前屈曲和向后伸展过程中骨盆和腰椎的角旋转及其矢状节律。使用详细的肌肉骨骼模型量化躯干屈曲过程中腰盆比值变化对脊柱负荷的影响。
胸部、骨盆和腰椎的最大自主屈曲旋转平均值分别为121°(标准差9.9)、53.0°(标准差5.2)和60.2°(标准差8.6)。在向前弯曲过程中,平均腰盆比值从躯干屈曲0 - 30°时的2.51降至90 - 120°范围内的1.34,而在向后伸展过程中,从90 - 120°范围内的1.23增至0 - 30°范围内的2.86。在任何躯干屈曲角度下,腰盆比值从0.5到3(间隔为0.25)的变化通常会使L5 - S1的压缩力和剪切力分别降低多达21%和45%。所测量的腰盆比值总体上导致L5 - S1压缩力接近最佳(最小)。
在躯干向前和向后运动过程中均发现腰椎和骨盆运动之间存在同步节律。虽然腰椎分别在向前屈曲和向后伸展的早期和末期阶段对躯干旋转贡献更大,但骨盆分别在向前屈曲和向后伸展的末期和早期阶段贡献更大。我们的健康受试者采用了一种腰盆协调方式,可减少L5 - S1的压缩力。
