Biomechanical Behavior of Lithium-Disilicate-Modified Endocrown Restorations: A Three-Dimensional Finite Element Analysis

IF 2.7 Q1 MATERIALS SCIENCE, CERAMICS
Fatien I. Al-naqshabandi, Bahar Jaafar Selivany, Abdulsalam Rasheed Al-zahawi
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Abstract

This study aimed to assess the biomechanical behavior of endocrown-restored mandibular molars according to “margin design” and “coverage extent” using finite element analysis (FEA). Six 3D solid models were fabricated, namely, those with complete occlusal coverage: A (butt joint), B (anatomic margin); partial coverage (two mesial cusps): C (butt joint), D (anatomic margin); and partial coverage with mesial class II cavity: E (butt joint), F (anatomic margin). All models received lithium disilicate endocrowns (2.0 mm thickness and 4.0 mm central retainer cavity depth). A 300 N vertical load was applied to the occlusal surface, while a 250 N oblique load was applied at 45° to the lingual inclined planes of the buccal cusps. The maximum von Mises stress (VMS) distribution patterns were calculated for the endocrown, tooth structure, and cement layer. The VMS on the prepared teeth and cement layer showed subtle differences between the tested models under vertical loads. The anatomic margin (partial and complete coverage) exhibited a more homogeneous stress distribution and offered a more adhesive area of the tooth structure. Under oblique loading, the anatomic margin (complete and partial), except Model D, exhibited the lowest VMS in the cement layer. An anatomically based endocrown could be a promising alternative to the butt joint design, providing better-devised endocrown restorations, which could potentially yield a more benign stress dissipation.
二硅酸锂改性牙冠修复体的生物力学行为:三维有限元分析
本研究采用有限元分析方法,根据“边缘设计”和“覆盖范围”评价内冠修复下颌磨牙的生物力学行为。制作了6个三维实体模型,即咬合覆盖完整的模型:A(对接关节),B(解剖缘);部分覆盖(两个近端尖):C(对接),D(解剖缘);和部分覆盖内侧II类腔:E(对接),F(解剖缘)。所有模型均使用二硅酸锂牙冠(厚度2.0 mm,中心固位腔深度4.0 mm)。在咬合面上施加300 N的垂直载荷,在牙尖舌侧斜面45°处施加250 N的斜向载荷。计算了牙冠、牙体结构和骨水泥层的最大von Mises应力分布规律。在垂直荷载作用下,模型间制备的牙体和水泥层上的VMS存在细微差异。解剖缘(部分覆盖和完全覆盖)表现出更均匀的应力分布,并提供了更强的牙齿结构粘连区域。在斜向载荷作用下,除模型D外,其余解剖缘(完全缘和部分缘)在水泥层中VMS最低。基于解剖结构的内冠可能是对接设计的一个有希望的替代方案,提供更好的设计内冠修复,这可能会产生更良性的应力消散。
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
CiteScore
3.00
自引率
7.10%
发文量
66
审稿时长
10 weeks
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