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经皮质骨轨道螺钉固定与传统轨道螺钉固定对腰椎相邻固定节段生物力学改变的有限元分析。

Biomechanical Changes of Adjacent and Fixed Segments Through Cortical Bone Trajectory Screw Fixation versus Traditional Trajectory Screw Fixation in the Lumbar Spine: A Finite Element Analysis.

机构信息

Department of Orthopedics & Spine Surgery, the First Affiliated Hospital of Anhui Medical University, Hefei, Anhui, China.

Department of Orthopedics & Spine Surgery, the First Affiliated Hospital of Anhui Medical University, Hefei, Anhui, China.

出版信息

World Neurosurg. 2021 Jul;151:e447-e456. doi: 10.1016/j.wneu.2021.04.061. Epub 2021 Apr 22.

DOI:10.1016/j.wneu.2021.04.061
PMID:33895371
Abstract

OBJECTIVE

The finite element method was used to investigate the biomechanical adjustments of adjacent and fixed segments after lumbar fusion and fixation with traditional trajectory (TT) and cortical bone trajectory (CBT) screws.

METHODS

The model used was a validated nonlinearly L3-S1 finite element model. Interbody fusion cages and 2 types of screws were used to work on the L4-L5. To simulate flexion, extension, lateral bending, and axial rotation, all models were loaded in 3 planes with a compressive pre-load of 400 N and a bending moment of 7.5 N/m. Under various loading conditions, the range of motion (ROM), peak Von Mises stress of the vertebral body, stress of the intervertebral disc, stress of the facet joints, stress of the endplate, and stress of internal fixation were compared.

RESULTS

In all instrumentation models, the ROM at fixed segments decreased. At adjacent segments, the ROM of the CBT model was greater than that of the TT model. The CBT model had a greater peak Von Mises stress of the L4 and L5 vertebral bodies, as well as greater stress of internal fixation, than the TT model. Furthermore, as compared with the TT model, the CBT model's facet joint and endplate stress were lower at fixed segments but higher at adjacent segments. The stress on the L3-L4 and L5-S1 intervertebral discs in the CBT and TT models, on the other hand, was nearly equivalent.

CONCLUSIONS

At the fixed section, CBT may provide slightly better stability, endplate tension, and facet joint stress than TT. The greater ROM, endplate stress, and facet joint stress of CBT in adjacent segments, on the other hand, should be taken into account in the future.

摘要

目的

采用有限元法研究传统轨迹(TT)和皮质骨轨迹(CBT)螺钉固定后路腰椎融合术后相邻和固定节段的生物力学调整。

方法

使用的模型是经过验证的非线性 L3-S1 有限元模型。在 L4-L5 采用椎间融合笼和 2 种类型的螺钉。为了模拟屈伸、侧屈和轴向旋转,所有模型在 3 个平面上加载 400N 的压缩预载和 7.5N/m 的弯矩。在各种加载条件下,比较了活动范围(ROM)、椎体 Von Mises 峰值应力、椎间盘应力、小关节应力、终板应力和内固定物的应力。

结果

在所有器械模型中,固定节段的 ROM 减小。在相邻节段,CBT 模型的 ROM 大于 TT 模型。与 TT 模型相比,CBT 模型的 L4 和 L5 椎体的 Von Mises 峰值应力更大,内固定物的应力也更大。此外,与 TT 模型相比,CBT 模型固定节段的小关节和终板应力较低,但相邻节段的应力较高。另一方面,CBT 和 TT 模型的 L3-L4 和 L5-S1 椎间盘的应力几乎相等。

结论

在固定节段,CBT 可能提供稍好的稳定性、终板张力和小关节应力,而 CBT 在相邻节段的较大 ROM、终板应力和小关节应力应在未来加以考虑。

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