基于三种螺钉的寰枢椎固定技术的生物力学研究：一项有限元研究。

Biomechanical Study on Three Screw-Based Atlantoaxial Fixation Techniques: A Finite Element Study.

作者信息

Erbulut Deniz Ufuk, Mumtaz Muzammil, Zafarparandeh Iman, Özer Ali Fahir

机构信息

Herston Biofabrication Institute, Metro North Hospital and Health Service, Brisbane, QLD, Australia.

Engineering Center for Orthopaedic Research Excellence (ECORE), University of Toledo, Toledo, OH, USA.

出版信息

Asian Spine J. 2022 Dec;16(6):831-838. doi: 10.31616/asj.2021.0270. Epub 2022 Apr 6.

DOI:10.31616/asj.2021.0270

PMID:35378577

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9827200/

Abstract

STUDY DESIGN

This is a finite element study.

PURPOSE

This study is aimed to compare the biomechanical behaviors of three screw-based atlantoaxial fixation techniques.

OVERVIEW OF LITERATURE

Screw-based constructs that are widely used to stabilize the atlantoaxial joint come with their own challenges in surgery. Clinical and in vitro studies have compared the effectiveness of screw-based constructs in joint fixation. Nevertheless, there is limited information regarding the biomechanical behavior of these constructs, such as the stresses and strains they experience.

METHODS

A finite element model of the upper cervical spine was developed. A type II dens fracture was induced in the intact model to produce the injured model. The following three constructs were simulated on the intact and injured models: transarticular screw (C1- C2TA), lateral mass screw in C1 and pedicle screw in C2 (C1LM1-C2PD), and lateral mass screw in C1 and translaminar screw in C2 (C1LM1-C2TL).

RESULTS

In the intact model, flexion-extension range of motion (ROM) was reduced by up to 99% with C11-C2TA and 98% with C1LM1-C2PD and C1LM1-C2TL. The lateral bending ROM in the intact model was reduced by 100%, 95%, and 75% with C11-C2TA, C1LM1-C2PD, and C1LM1-C2TL, respectively. The axial rotation ROM in the intact model was reduced by 99%, 98%, and 99% with C11-C2TA, C1LM1-C2PD, and C1LM1-C2TL, respectively. The largest maximum von Mises stress was predicted for C1LM1-C2TL (332 MPa) followed by C1LM1-C2PD (307 MPa) and C11-C2TA (133 MPa). Maximum stress was predicted to be at the lateral mass screw head of the C1LM1-C2TL construct.

CONCLUSIONS

Our model indicates that the biomechanical stability of the atlantoaxial joint in lateral bending with translaminar screws is not as reliable as that with transarticular and pedicle screws. Translaminar screws experience large stresses that may lead to failure of the construct before the required bony fusion occurs.

摘要

研究设计

这是一项有限元研究。

目的

本研究旨在比较三种基于螺钉的寰枢椎固定技术的生物力学行为。

文献综述

广泛用于稳定寰枢关节的基于螺钉的结构在手术中存在自身的挑战。临床和体外研究已经比较了基于螺钉的结构在关节固定中的有效性。然而，关于这些结构的生物力学行为，如它们所承受的应力和应变的信息有限。

方法

建立了上颈椎的有限元模型。在完整模型中诱导II型齿突骨折以产生损伤模型。在完整模型和损伤模型上模拟以下三种结构：经关节螺钉（C1-C2TA）、C1侧块螺钉和C2椎弓根螺钉（C1LM1-C2PD）以及C1侧块螺钉和C2椎板螺钉（C1LM1-C2TL）。

结果

在完整模型中，C11-C2TA使屈伸活动度（ROM）降低高达99%，C1LM1-C2PD和C1LM1-C2TL使其降低98%。完整模型中，C11-C2TA、C1LM1-C2PD和C1LM1-C2TL分别使侧弯ROM降低100%、95%和75%。完整模型中，C11-C2TA、C1LM1-C2PD和C1LM1-C2TL分别使轴向旋转ROM降低99%、98%和99%。预测C1LM1-C2TL的最大冯·米塞斯应力最大（332MPa），其次是C1LM1-C2PD（307MPa）和C11-C2TA（133MPa）。预测最大应力出现在C1LM1-C2TL结构的侧块螺钉头部。

结论

我们的模型表明，使用椎板螺钉时寰枢关节在侧弯时的生物力学稳定性不如使用经关节螺钉和椎弓根螺钉时可靠。椎板螺钉承受较大应力，可能导致在所需的骨融合发生之前结构失效。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/84ec/9827200/2de64763d54f/asj-2021-0270f1.jpg

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基于三种螺钉的寰枢椎固定技术的生物力学研究：一项有限元研究。

Biomechanical Study on Three Screw-Based Atlantoaxial Fixation Techniques: A Finite Element Study.

作者信息

机构信息

出版信息

STUDY DESIGN

PURPOSE

OVERVIEW OF LITERATURE

METHODS

RESULTS

CONCLUSIONS

研究设计

目的

文献综述

方法

结果

结论

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