成人脊柱畸形手术后，在上端固定椎体（UIV）处双皮质螺钉植入可能导致UIV骨折：一项有限元分析研究

Bicortical Screw Purchase at Upper Instrumented Vertebra (UIV) Can Cause UIV Fracture After Adult Spinal Deformity Surgery: A Finite Element Analysis Study.

作者信息

Wui Seong-Hyun, Hyun Seung-Jae, Kang Bokku, Kim Ki-Jeong, Jahng Tae-Ahn, Kim Hyun Jib

机构信息

Department of Neurosurgery, Spine Center, Seoul National University Bundang Hospital, Seoul National University College of Medicine, Seongnam, Korea.

Department of Biomedical Engineering, Yonsei University, Seoul, Korea.

出版信息

Neurospine. 2020 Jun;17(2):377-383. doi: 10.14245/ns.1938100.050. Epub 2019 Jul 11.

DOI:10.14245/ns.1938100.050

PMID:31319661

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7338956/

Abstract

OBJECTIVE

To examine the biomechanical stress distribution at the upper instrumented vertebra (UIV) according to unicortical- and bicortical purchase model by finite element analysis (FEA).

METHODS

A T8 to Sacrum with implant finite element model was developed and validated. The pedicle screws were unicortically or bicortically inserted from T10 to L5, and each model was compared and the von Mises (VM) yield stress of T10 was calculated. According to the motion (flexion, extension, lateral bending, and axial rotation) of spine, boundary condition values were set as 15°, 15°, 10°, 4°.

RESULTS

Although the 2 stress values did not show a significant difference between the unicortical- and bicortical purchase models in the flexion and extension, bicortical purchase model showed a larger stress distribution. However, the asymmetric behavior was significantly greater in the case of lateral bending (0.802 MPa vs. 0.489 MPa) and the rotation (5.545 MPa vs. 4.905 MPa). The greater stress was observed on the spinal body surface abutting the implanted screw. Although the maximum stress was observed around the implanted screw in the bicortical purchase model under axial loading, the VM stress of both models was not significantly different.

CONCLUSION

Bicortical purchase model showed a larger stress distribution than the unicortical model, especially in the case of lateral bending and the rotation behavior. Our biomechanical simulation by FEA indicates that bicortical fixation at UIV can be a risk factor for early UIV compression fracture after adult spinal deformity surgery.

摘要

目的

通过有限元分析（FEA），根据单皮质和双皮质植入模型，研究上位内固定椎体（UIV）的生物力学应力分布。

方法

建立并验证了一个包含T8至骶骨及植入物的有限元模型。从T10至L5单皮质或双皮质置入椎弓根螺钉，比较每个模型并计算T10的von Mises（VM）屈服应力。根据脊柱的运动（前屈、后伸、侧屈和轴向旋转），将边界条件值设定为15°、15°、10°、4°。

结果

虽然在单皮质和双皮质植入模型的前屈和后伸中，两个应力值没有显著差异，但双皮质植入模型显示出更大的应力分布。然而，在侧屈（0.802MPa对0.489MPa）和旋转（5.545MPa对4.905MPa）情况下，不对称行为明显更大。在与植入螺钉相邻的椎体表面观察到更大的应力。虽然在轴向加载下双皮质植入模型中植入螺钉周围观察到最大应力，但两个模型的VM应力没有显著差异。

结论

双皮质植入模型比单皮质模型显示出更大的应力分布，特别是在侧屈和旋转行为的情况下。我们通过FEA进行的生物力学模拟表明，UIV处的双皮质固定可能是成人脊柱畸形手术后早期UIV压缩骨折的一个危险因素。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/baa7/7338956/c8d2618f0f36/ns-1938100-050f1.jpg

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成人脊柱畸形手术后，在上端固定椎体（UIV）处双皮质螺钉植入可能导致UIV骨折：一项有限元分析研究

Bicortical Screw Purchase at Upper Instrumented Vertebra (UIV) Can Cause UIV Fracture After Adult Spinal Deformity Surgery: A Finite Element Analysis Study.

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