颈椎椎弓根梯形螺纹钉棒固定的生物力学分析：有限元分析

Biomechanical Analysis of Trapezoidal Thread Screw-Rod Fixation in Pedicle Section of Cervical Spine: A Finite-Element Analysis.

作者信息

Kumar Ram, Kumar Amit, Kumari Shabnam, Kumar Alok

机构信息

Department of Mechanical Engineering, National Institute of Technology, Patna, Bihar India.

Department of Mathematics, Banaras Hindu University, Varanasi, India.

出版信息

Indian J Orthop. 2024 May 4;58(6):771-777. doi: 10.1007/s43465-024-01170-y. eCollection 2024 Jun.

DOI:10.1007/s43465-024-01170-y

PMID:38812871

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11130091/

Abstract

BACKGROUND

Cervical pedicle screw-rod fixation presents a complex approach in spinal surgery, offering enhanced spine stabilization in variable conditions considering traumatic injuries, degenerative changes, as well as orthopaedic and oncological ailments. This technique employs small diameter screw implants strategically placed to bolster the mechanical integrity of the spine. Notably, it involves minimally invasive procedures, resulting in smaller incisions and reduced patient discomfort. This study aims to assess the effects of trapezoidal thread screws in pedicle sections of the cervical spine during flexion-extension loadings, focusing on factors such as range of motion (ROM), implant stress, and stress on adjacent bone.

METHODS

Utilizing CT scan data, a finite element model of the cervical spine (C2-C7 vertebrae) was prepared. Trapezoidal thread screws were integrated into a single-level pedicle screw-rod fixation at the C5-C6 vertebrae. The C2 vertebra were given a compressive load of 50 N along with a moment of 1 Nm, resulting in the immobilization of the C7.

RESULTS AND DISCUSSION

The results indicate a reduction in ROM at the C5-C6 level by 69% to 77% compared to the intact spine during flexion-extension loading, with a slight increase in ROM observed at adjacent cervical spine levels. Stress analysis revealed that the trapezoidal thread screws induced stresses ranging from 24 MPa to 29 MPa in PEEK trapezoidal screw-rod implants, which fall below the material's yield stress.

CONCLUSIONS

This suggests that the trapezoidal thread profile may be advantageous in minimizing stress concentration, attributed to its larger contact area with the vertebrae bone between the threads.

摘要

背景

颈椎椎弓根螺钉-棒固定术是脊柱手术中的一种复杂方法，在考虑创伤性损伤、退行性改变以及骨科和肿瘤疾病等多种情况下，能增强脊柱稳定性。该技术采用小直径螺钉植入物，通过策略性放置来增强脊柱的机械完整性。值得注意的是，它涉及微创手术，切口更小，患者不适程度降低。本研究旨在评估梯形螺纹螺钉在颈椎椎弓根节段屈伸加载过程中的效果，重点关注诸如活动范围（ROM）、植入物应力以及相邻骨应力等因素。

方法

利用CT扫描数据建立了颈椎（C2 - C7椎体）的有限元模型。将梯形螺纹螺钉整合到C5 - C6椎体的单节段椎弓根螺钉-棒固定中。对C2椎体施加50 N的压缩载荷以及1 Nm的力矩，从而固定C7椎体。

结果与讨论

结果表明，在屈伸加载过程中，与完整脊柱相比，C5 - C6节段的ROM减少了69%至77%，而相邻颈椎节段的ROM略有增加。应力分析显示，梯形螺纹螺钉在聚醚醚酮（PEEK）梯形螺钉-棒植入物中产生的应力范围为24 MPa至29 MPa，低于材料的屈服应力。

结论

这表明梯形螺纹外形可能有利于最小化应力集中，这归因于其螺纹与椎骨之间更大的接触面积。

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