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1
Biomechanical evaluation of Chinese customized three-dimensionally printed total temporomandibular joint prostheses: A finite element analysis.基于有限元分析的中国定制化三维打印全颞下颌关节假体的生物力学评估
J Craniomaxillofac Surg. 2018 Sep;46(9):1561-1568. doi: 10.1016/j.jcms.2018.06.018. Epub 2018 Jul 5.
2
Costochondral Graft Versus Total Alloplastic Joint for Temporomandibular Joint Reconstruction.肋软骨移植与全异体关节用于颞下颌关节重建的比较
Oral Maxillofac Surg Clin North Am. 2018 Aug;30(3):335-342. doi: 10.1016/j.coms.2018.05.003. Epub 2018 Jul 5.
3
Alloplastic reconstruction of the temporomandibular joint.颞下颌关节的异体植入重建
J Istanb Univ Fac Dent. 2017 Dec 2;51(3 Suppl 1):S31-S40. doi: 10.17096/jiufd.87994. eCollection 2017.
4
A custom-made temporomandibular joint prosthesis for fabrication by selective laser melting: Finite element analysis.一种通过选择性激光熔化制造的定制颞下颌关节假体:有限元分析。
Med Eng Phys. 2017 Aug;46:1-11. doi: 10.1016/j.medengphy.2017.04.012. Epub 2017 Jun 17.
5
The Effects of Unilateral Alloplastic Temporomandibular Joint Replacement on the Opposite-Side Natural Joint: A Finite-Element Analysis.单侧同种异体颞下颌关节置换对另一侧天然关节的影响:有限元分析
J Oral Maxillofac Surg. 2017 Nov;75(11):2316-2322. doi: 10.1016/j.joms.2017.05.017. Epub 2017 May 24.
6
A personalized 3D-printed prosthetic joint replacement for the human temporomandibular joint: From implant design to implantation.用于人类颞下颌关节的个性化 3D 打印假体关节置换:从植入物设计到植入。
J Mech Behav Biomed Mater. 2017 May;69:404-411. doi: 10.1016/j.jmbbm.2017.01.048. Epub 2017 Feb 6.
7
A new condyle implant design concept for an alloplastic temporomandibular joint in bone resorption cases.一种用于骨吸收病例的全塑颞下颌关节的新型髁突植入物设计概念。
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8
Finite element analysis of a condylar support prosthesis to replace the temporomandibular joint.用于替换颞下颌关节的髁突支撑假体的有限元分析
Br J Oral Maxillofac Surg. 2015 Apr;53(4):352-7. doi: 10.1016/j.bjoms.2015.01.016. Epub 2015 Feb 19.

针对特定患者的颞下颌关节植入物进行有限元分析,以同时矫正面部畸形的方式替换双侧关节。

Finite element analysis of patient-specific TMJ implants to replace bilateral joints with simultaneous correction of facial deformity.

作者信息

Vignesh U, Mehrotra D, Bhave S M, Katrolia R, Sharma S

机构信息

Dept of Oral & Maxillofacial Surgery, King George's Medical University, Lucknow, India.

出版信息

J Oral Biol Craniofac Res. 2020 Oct-Dec;10(4):674-679. doi: 10.1016/j.jobcr.2020.07.013. Epub 2020 Aug 8.

DOI:10.1016/j.jobcr.2020.07.013
PMID:33072504
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7549118/
Abstract

INTRODUCTION

Finite element analysis (FEA) is a method to mimic the biomechanical behaviour of an object under various loading scenarios, and may be used during virtual planning of the TMJ prosthesis. Here we present an interesting case report where FEA was done to biomechanically evaluate patient specific total joint replacement prosthesis for bilateral TMJ replacement.

CASE REPORT

A 22 year old young girl visited our outpatient clinic with a chief complaint of retruded chin and limited mouth opening for the last 15 years. After clinical and radiographic examination, her corrective surgery was virtually planned on Mimics software. The Implants were studied under simulated loading scenarios in ANSYS to understand the structural integrity of the implant for different loading conditions.

RESULTS

Maximum Von-Mises Stress on Condylar component is 151.9 MPa and Maximum Von-Mises Stress on Fossa component is 0.377 MPa. The minimum safety factor of the fossa component was about 15, which is safe enough to complete 100 million cycles. The maximum von-mises stress were detected at the screw holes in the condylar components of the implant. The screw holes were therefore the areas prone to highest chance of failure in the design.

CONCLUSION

We conclude that FEA based biomechanical analysis is important prerequisite during customized reconstruction of TMJ. In today's scenario of patient specific TMJ reconstruction, FEA based designing and planning of stress distribution along the bone and calculation of maximum strain in the prosthesis, further aids in the proper designing of this implant and enhances the post-operative clinical results.

摘要

引言

有限元分析(FEA)是一种模拟物体在各种加载情况下生物力学行为的方法,可用于颞下颌关节假体的虚拟规划。在此,我们展示一个有趣的病例报告,其中通过有限元分析对用于双侧颞下颌关节置换的患者特异性全关节置换假体进行生物力学评估。

病例报告

一名22岁年轻女孩因后缩下巴和张口受限15年前来我院门诊就诊。经过临床和影像学检查后,在Mimics软件上对其矫正手术进行了虚拟规划。在ANSYS中对植入物在模拟加载情况下进行研究,以了解不同加载条件下植入物的结构完整性。

结果

髁突部件上的最大冯·米塞斯应力为151.9兆帕,窝部件上的最大冯·米塞斯应力为0.377兆帕。窝部件的最小安全系数约为15,足以完成1亿次循环。在植入物髁突部件的螺孔处检测到最大冯·米塞斯应力。因此,螺孔是设计中最容易出现故障的区域。

结论

我们得出结论,基于有限元分析的生物力学分析是颞下颌关节定制重建过程中的重要前提条件。在当今患者特异性颞下颌关节重建的情况下,基于有限元分析的沿骨应力分布设计和规划以及假体最大应变的计算,有助于进一步合理设计该植入物并提高术后临床效果。