STRESS ANALYSIS OF TEETH, PERIODONTAL TISSUES, AND MAXILLA BONES DUE TO BRUXISM

Q4 Earth and Planetary Sciences

ASEAN Engineering Journal Pub Date : 2022-11-29 DOI:10.11113/aej.v12.17735

S. Wicaksono, A. Mahyuddin, Aldilla Miranda, T. Dirgantara, Nunung Rusminah

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Abstract

This paper investigates the stress distribution on the teeth and jaw during bruxism that may provide additional insights to the consequences of bruxism, splint design considerations, a basis for possible therapy protocols, and a baseline for future bruxism studies. A three-dimensional (3D) solid model of a complete jaw comprised of teeth, periodontal ligaments, and maxilla bone is reconstructed based on a Cone Beam Computed Tomography (CBCT) scan of a patient. A finite element model of the jaw is then constructed using the geometry imported from the solid model that has been reworked to remove imperfections during reconstruction and to allow proper contact between teeth. A linear elastic finite element analyses were then performed to simulate the bruxism phenomenon which includes biting and grinding. Numerical analysis is conducted only to the maxilla, with forces are placed on the teeth’s surface where contact occurs. The analysis is conducted for all stages of bruxism and possible movements patterns. Results suggest that high stresses occur during grinding, indicating a strong correlation between bruxism and dental issues such as tooth wear and alveolar resorption.

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磨牙症对牙齿、牙周组织和上颌骨的应力分析

本文研究了磨牙时牙齿和下颌的应力分布，这可能为磨牙的后果提供额外的见解，夹板设计的考虑，可能的治疗方案的基础，以及未来磨牙研究的基线。基于锥形束计算机断层扫描(CBCT)对患者进行扫描，重建了由牙齿、牙周韧带和上颌骨组成的完整颌骨的三维(3D)实体模型。然后使用从实体模型导入的几何图形构建颌骨的有限元模型，该模型经过重新加工以消除重建过程中的缺陷并允许牙齿之间的适当接触。采用线弹性有限元方法模拟了磨擦现象，包括咬和磨。数值分析只对上颌骨进行，在牙齿接触处施加力。分析是针对磨牙症的所有阶段和可能的运动模式进行的。结果表明，磨牙过程中会产生高应力，这表明磨牙与牙齿磨损和牙槽吸收等牙齿问题有很强的相关性。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

ASEAN Engineering Journal Engineering-Engineering (all)

CiteScore

0.60

自引率

0.00%

发文量