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使用有限元模型比较天然和人工颞下颌关节置换的生物力学分析。

Biomechanical analysis comparing natural and alloplastic temporomandibular joint replacement using a finite element model.

作者信息

Mesnard Michel, Ramos Antonio, Ballu Alex, Morlier Julien, Cid M, Simoes J A

机构信息

Laboratoire de Mécanique Physique, Université de Bordeaux, Talence, France.

出版信息

J Oral Maxillofac Surg. 2011 Apr;69(4):1008-17. doi: 10.1016/j.joms.2010.02.019. Epub 2010 Jul 31.

DOI:10.1016/j.joms.2010.02.019
PMID:20674129
Abstract

PURPOSE

Prosthetic materials and bone present quite different mechanical properties. Consequently, mandible reconstruction with metallic materials (or a mandible condyle implant) modifies the physiologic behavior of the mandible (stress, strain patterns, and condyle displacements). The changing of bone strain distribution results in an adaptation of the temporomandibular joint, including articular contacts.

MATERIALS AND METHODS

Using a validated finite element model, the natural mandible strains and condyle displacements were evaluated. Modifications of strains and displacements were then assessed for 2 different temporomandibular joint implants. Because materials and geometry play important key roles, mechanical properties of cortical bone were taken into account in models used in finite element analysis.

RESULTS

The finite element model allowed verification of the worst loading configuration of the mandibular condyle. Replacing the natural condyle by 1 of the 2 tested implants, the results also show the importance of the implant geometry concerning biomechanical mandibular behavior. The implant geometry and stiffness influenced mainly strain distribution.

CONCLUSION

The different forces applied to the mandible by the elevator muscles, teeth, and joint loads indicate that the finite element model is a relevant tool to optimize implant geometry or, in a subsequent study, to choose a more suitable distribution of the screws. Bone screws (number and position) have a significant influence on mandibular behavior and on implant stress pattern. Stress concentration and implant fracture must be avoided.

摘要

目的

假体材料和骨骼呈现出截然不同的力学性能。因此,使用金属材料(或下颌髁突植入物)进行下颌骨重建会改变下颌骨的生理行为(应力、应变模式和髁突位移)。骨应变分布的变化会导致颞下颌关节的适应性改变,包括关节接触。

材料与方法

使用经过验证的有限元模型,评估天然下颌骨的应变和髁突位移。然后针对2种不同的颞下颌关节植入物评估应变和位移的变化。由于材料和几何形状起着重要关键作用,在有限元分析中使用的模型中考虑了皮质骨的力学性能。

结果

有限元模型能够验证下颌髁突的最坏加载配置。用2种测试植入物中的1种替换天然髁突,结果还表明植入物几何形状对下颌骨生物力学行为的重要性。植入物的几何形状和刚度主要影响应变分布。

结论

由升颌肌、牙齿和关节负荷施加于下颌骨的不同力表明,有限元模型是优化植入物几何形状或在后续研究中选择更合适螺钉分布的相关工具。骨螺钉(数量和位置)对下颌骨行为和植入物应力模式有显著影响。必须避免应力集中和植入物骨折。

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