Three-dimensional finite element analysis of occlusal stress on maxillary first molars with different marginal morphologies restored with occlusal veneers.

IF 2.6 2区 医学 Q1 DENTISTRY, ORAL SURGERY & MEDICINE
Qing Chen, Siyang Luo, Yujuan Wang, Zhu Chen, Ying Li, Maohua Meng, Yamei Li, Nan Xiao, Qiang Dong
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Abstract

Background: There are differences in the research results regarding which edge design of occlusal veneers can achieve the best long-term success rate as a relatively new fixed prosthesis restoration method. Further research is needed. The three-dimensional finite element method was used to conduct stress analysis on occlusal veneers of maxillary first permanent molars with different thicknesses and margin preparation designs. The aim of this study was to provide mechanical research evidence and a reference for exploring standardized clinical protocols for the design of occlusal veneer restorations of maxillary first molars.

Method: A 3Shape (Intraoral Scanner) was used to scan the maxillary first molar teeth in vitro, after which 3D printing was carried out. Three different edge designs were applied to identical teeth: straight-beveled finishing line(SFL), chamfer finishing line(CFL), and standard cuspal inclination(SCI). Preparation was carried out with a thickness of 0.5 mm. Using the surface deformation feature, the occlusal veneer was thickened to 0.5 mm and 1.0 mm, and periodontal ligaments were added. They were then placed into the upper and lower jaws and dental arches. Finite element analysis was performed after applying bite force dispersion to the loading area on the mandible following dynamic contact.

Results: (1) As the thickness increased, the maximum Von Mises stress in the occlusal veneers SFL and CFL also increased, while the SCI exhibited the opposite trend. (2). The trend of the maximum Von Mises stress in the adhesive layer decrease gradually with increasing thickness of the occlusal veneer. The stresses of the SFL and CFL is concentrated primarily at the edge position below the functional cusp, resulting in relatively low adhesive stress. However, in the SCI group, the maximum stress at the edge of the adhesive layer exceeds the maximum shear strength of commonly used adhesives.

Conclusions: Under the experimental conditions, the mechanical properties of the maximum Von Mises stress in the SFL, CFL, and SCI occlusal veneers meet clinical needs. Incorporating the minimally invasive concept of tooth preservation, a thickness of 1.0 mm are optimal for glass ceramic occlusal veneers on maxillary first molars.

对使用咬合贴面修复的具有不同边缘形态的上颌第一磨牙的咬合应力进行三维有限元分析。
背景:作为一种相对较新的固定义齿修复方法,哪种咬合贴面边缘设计的长期成功率最高,研究结果存在差异。需要进一步研究。本研究采用三维有限元法对不同厚度和边缘预备设计的上颌第一恒磨牙咬合贴面进行了应力分析。本研究的目的是为上颌第一恒磨牙咬合贴面修复体设计的标准化临床方案的探索提供力学研究证据和参考:方法:使用3Shape(口内扫描仪)对上颌第一磨牙进行体外扫描,然后进行3D打印。在相同的牙齿上应用了三种不同的边缘设计:直斜面精加工线(SFL)、倒角精加工线(CFL)和标准尖面倾斜度(SCI)。制备厚度为 0.5 毫米。利用表面变形功能,将咬合贴面加厚到 0.5 毫米和 1.0 毫米,并添加牙周韧带。然后将它们放入上下颌骨和牙弓中。结果:(1) 随着厚度的增加,咬合贴面 SFL 和 CFL 的最大 Von Mises 应力也随之增加,而 SCI 则表现出相反的趋势。(2).随着咬合贴面厚度的增加,粘合层的最大 Von Mises 应力呈逐渐减小的趋势。SFL 和 CFL 的应力主要集中在功能尖突以下的边缘位置,因此粘接应力相对较低。然而,在 SCI 组中,粘合剂层边缘的最大应力超过了常用粘合剂的最大剪切强度:在实验条件下,SFL、CFL 和 SCI 咬合贴面最大 Von Mises 应力的机械性能符合临床需要。结合牙齿保护的微创理念,上颌第一磨牙玻璃陶瓷咬合贴面的最佳厚度为 1.0 毫米。
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
BMC Oral Health
BMC Oral Health DENTISTRY, ORAL SURGERY & MEDICINE-
CiteScore
3.90
自引率
6.90%
发文量
481
审稿时长
6-12 weeks
期刊介绍: BMC Oral Health is an open access, peer-reviewed journal that considers articles on all aspects of the prevention, diagnosis and management of disorders of the mouth, teeth and gums, as well as related molecular genetics, pathophysiology, and epidemiology.
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