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联合载荷作用下椎间盘内的椎间盘压力、剪切应变和纤维应变。

Intradiscal pressure, shear strain, and fiber strain in the intervertebral disc under combined loading.

作者信息

Schmidt Hendrik, Kettler Annette, Heuer Frank, Simon Ulrich, Claes Lutz, Wilke Hans-Joachim

机构信息

Institute of Orthopaedic Research and Biomechanics, University of Ulm, Ulm, Germany.

出版信息

Spine (Phila Pa 1976). 2007 Apr 1;32(7):748-55. doi: 10.1097/01.brs.0000259059.90430.c2.

DOI:10.1097/01.brs.0000259059.90430.c2
PMID:17414908
Abstract

STUDY DESIGN

Finite element study.

OBJECTIVE

To investigate intradiscal pressure, shear strain between anulus and adjacent endplates, and fiber strain in the anulus under pure and combined moments.

SUMMARY OF BACKGROUND DATA

Concerning anulus failures such as fissures and disc prolapses, the mechanical response of the intervertebral disc during combined load situations is still not well understood.

METHODS

A 3-dimensional, nonlinear finite element model of a lumbar spinal segment L4-L5 was used. Pure unconstraint moments of 7.5 Nm in all anatomic planes with and without an axial preload of 500 N were applied to the upper vertebral body. The load direction was incrementally changed with an angle of 15 degrees between the 3 anatomic planes to realize not only moments in the principle motion planes but also moment combinations.

RESULTS

Intradiscal pressure was highest in flexion and lowest in lateral bending. Load combinations did not increase the pressure. A combination of lateral bending plus flexion or lateral bending plus extension strongly increased the maximum shear strains. Lateral bending plus axial rotation yielded the highest increase in fiber strains, followed by axial rotation plus flexion or axial rotation plus extension. The highest shear and fiber strains were both located posterolaterally. An additional axial preload tended to increase the pressure, the shear, and fiber strains essentially for all load scenarios.

CONCLUSIONS

Combined moments seem to lead to higher stresses in the disc, especially posterolaterally. This region might be more susceptible to disc failure and prolapses. These results may help clinicians better understand the mechanical causes of disc prolapses and may also be valuable in developing preventive clinical strategies and postoperative treatments.

摘要

研究设计

有限元研究。

目的

研究单纯及联合力矩作用下的椎间盘内压力、纤维环与相邻终板间的剪切应变以及纤维环中的纤维应变。

背景资料总结

关于纤维环破裂和椎间盘突出等纤维环失效问题,在联合载荷情况下椎间盘的力学响应仍未得到充分理解。

方法

采用L4 - L5腰椎节段的三维非线性有限元模型。在有和没有500 N轴向预载荷的情况下,在所有解剖平面上对上位椎体施加7.5 Nm的纯无约束力矩。在三个解剖平面之间以15度角逐渐改变载荷方向,以实现不仅在主运动平面上的力矩,还包括力矩组合。

结果

椎间盘内压力在屈曲时最高,在侧屈时最低。载荷组合并未增加压力。侧屈加屈曲或侧屈加伸展的组合强烈增加了最大剪切应变。侧屈加轴向旋转导致纤维应变增加最多,其次是轴向旋转加屈曲或轴向旋转加伸展。最高的剪切应变和纤维应变均位于后外侧。额外的轴向预载荷在所有载荷情况下都倾向于增加压力、剪切应变和纤维应变。

结论

联合力矩似乎会导致椎间盘内出现更高的应力,尤其是在后外侧。该区域可能更容易发生椎间盘失效和突出。这些结果可能有助于临床医生更好地理解椎间盘突出的力学原因,也可能对制定预防性临床策略和术后治疗有价值。

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