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下背痛患者在从坐到站和从站到坐过程中腰椎和髋关节的三维动力学

Three-dimensional kinetics of the lumbar spine and hips in low back pain patients during sit-to-stand and stand-to-sit.

作者信息

Shum Gary L K, Crosbie Jack, Lee Raymond Y W

机构信息

School of Physiotherapy, the University of Sydney, Sydney, Australia.

出版信息

Spine (Phila Pa 1976). 2007 Apr 1;32(7):E211-9. doi: 10.1097/01.brs.0000259204.05598.10.

DOI:10.1097/01.brs.0000259204.05598.10
PMID:17414896
Abstract

STUDY DESIGN

Experimental, biomechanical study to determine the kinetics of the lumbar spine and hips during sit-to-stand and stand-to-sit.

OBJECTIVE

To investigate the effects of back pain, with and without limitation in straight leg raise, on the joint moment and power of the lumbar and hips during sit-to-stand and stand-to-sit.

SUMMARY OF BACKGROUND DATA

Movements of the lumbar spine and hips, and their coordination have been reported to be affected by the presence of low back pain (LBP), especially in those with a positive straight leg raise. However, the literature has no information concerning moment and power characteristics of the lumbar spine and hips during sit-to-stand and stand-to-sit in such patients.

METHODS

Twenty asymptomatic subjects, 20 LBP patients, and 20 patients with LBP and a positive straight leg raise sign were requested to perform the sit-to-stand and stand-to-sit activities. Electromagnetic sensors were attached to the body segments to measure their kinematics while 2 nonconductive force plates gathered ground reaction force data. Biomechanical models were used to determine the muscle moments and power at the lumbosacral (L5/S1) joint and hips.

RESULTS

Muscle moments acting at the lumbar spine and hip in the sagittal plane were found to decrease in subjects with LBP, but there were significant increases in moments in other planes of motion. The power patterns of the spine and hips were also significantly altered, particularly in subjects with a positive straight leg raise sign.

CONCLUSIONS

Back pain subjects exhibit compensatory movements and altered load sharing strategies during the sit-to-stand and stand-to-sit activities. Exercise therapy should take account of these changes so that the normal kinematic and kinetic characteristics of the spine and hips can be restored.

摘要

研究设计

一项实验性生物力学研究,旨在确定从坐起到站立和从站立到坐下过程中腰椎和髋部的动力学情况。

目的

探讨存在和不存在直腿抬高受限的背痛对从坐起到站立和从站立到坐下过程中腰椎和髋部的关节力矩和功率的影响。

背景数据总结

据报道,腰椎和髋部的运动及其协调性会受到腰痛(LBP)的影响,尤其是在直腿抬高试验阳性的患者中。然而,关于此类患者从坐起到站立和从站立到坐下过程中腰椎和髋部的力矩和功率特征,文献中尚无相关信息。

方法

要求20名无症状受试者、20名腰痛患者和20名腰痛且直腿抬高试验阳性的患者进行从坐起到站立和从站立到坐下的活动。将电磁传感器附着于身体各节段以测量其运动学,同时使用2个非导电测力板收集地面反作用力数据。采用生物力学模型确定腰骶(L5/S1)关节和髋部的肌肉力矩和功率。

结果

发现腰痛受试者在矢状面作用于腰椎和髋部的肌肉力矩减小,但在其他运动平面上力矩有显著增加。脊柱和髋部的功率模式也有显著改变,尤其是在直腿抬高试验阳性的受试者中。

结论

背痛患者在从坐起到站立和从站立到坐下的活动中表现出代偿性运动和改变的负荷分担策略。运动疗法应考虑到这些变化,以便恢复脊柱和髋部的正常运动学和动力学特征。

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