使用猪模型研究联合载荷下静态轴向扭矩对椎间关节破坏力学的影响。

The influence of static axial torque in combined loading on intervertebral joint failure mechanics using a porcine model.

作者信息

Drake Janessa D M, Aultman Crystal D, McGill Stuart M, Callaghan Jack P

机构信息

Faculty of Applied Health Sciences, Department of Kinesiology, University of Waterloo, Waterloo, Ont., Canada N2L 3G1.

出版信息

Clin Biomech (Bristol). 2005 Dec;20(10):1038-45. doi: 10.1016/j.clinbiomech.2005.06.007. Epub 2005 Aug 10.

DOI:10.1016/j.clinbiomech.2005.06.007

PMID:16098646

Abstract

BACKGROUND

The spine is routinely subjected to repetitive combined loading, including axial torque. Repetitive flexion-extension motions with low magnitude compressive forces have been shown to be an effective mechanism for causing disc herniations. The addition of axial torque to the efficacy of failure mechanisms, such as disc herniation, need to be quantified. The purpose of this study was to determine the role of static axial torque on the failure mechanics of the intervertebral joint under repetitive combined loading.

METHODS

Repetitive flexion-extension motions combined with 1472 N of compression were applied to two groups of nine porcine motion segments. Five Nm of axial torque was applied to one group. Load-displacement behaviour was quantified, and planar radiography was used to document tracking of the nucleus pulposus and to identify fractures.

FINDINGS

The occurrence of facet fractures was found to be higher (P=0.028) in the axial torque group (7/9), compared to the no axial torque group (2/9). More hysteresis energy was lost up to 3000 cycles of loading in the axial torque group (P<0.014). The flexion-extension cycle stiffness was not different between the two groups until 4000 cycles of loading, after which the axial torque group stiffness increased (P=0.016). The percentage of specimens that herniated after 3000 cycles of loading was significantly larger (P=0.049) for the axial torque group (71%) compared to the no axial torque group (29%).

INTERPRETATION

Small magnitudes of static axial torque alter the failure mechanics of the intervertebral disc and vertebrae in combined loading situations. Axial torque appears to accelerate the susceptibility for injury to the intervertebral joint complex. This suggests tasks involving axial torque with other types of loading, apart from axial twist motion, should be monitored to assess exposure and injury risk.

摘要

背景

脊柱经常受到包括轴向扭矩在内的重复性复合载荷作用。低强度压缩力下的重复性屈伸运动已被证明是导致椎间盘突出的有效机制。需要对轴向扭矩对诸如椎间盘突出等失效机制效能的影响进行量化。本研究的目的是确定静态轴向扭矩在重复性复合载荷下对椎间关节失效力学的作用。

方法

对两组各九个猪运动节段施加重复性屈伸运动并结合1472 N的压缩力。对其中一组施加5 Nm的轴向扭矩。对载荷-位移行为进行量化，并使用平面X射线摄影记录髓核的轨迹并识别骨折。

结果

发现轴向扭矩组（7/9）小关节骨折的发生率高于无轴向扭矩组（2/9）（P = 0.028）。在轴向扭矩组中，加载至3000个循环时损失的滞后能量更多（P < 0.014）。在加载4000个循环之前，两组的屈伸循环刚度没有差异，之后轴向扭矩组的刚度增加（P = 0.016）。与无轴向扭矩组（29%）相比，轴向扭矩组在加载3000个循环后椎间盘突出的标本百分比显著更高（P = 0.049）（71%）。

解读

小幅度的静态轴向扭矩会改变复合载荷情况下椎间盘和椎体的失效力学。轴向扭矩似乎会加速椎间关节复合体受伤的易感性。这表明除了轴向扭转运动外，涉及轴向扭矩与其他类型载荷的任务应受到监测，以评估暴露情况和受伤风险。

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使用猪模型研究联合载荷下静态轴向扭矩对椎间关节破坏力学的影响。

The influence of static axial torque in combined loading on intervertebral joint failure mechanics using a porcine model.

作者信息

机构信息

出版信息

BACKGROUND

METHODS

FINDINGS

INTERPRETATION

背景

方法

结果

解读

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