不同开髓洞形设计影响下下颌第一磨牙的力学抗力：一项三维有限元分析研究

Mechanical resistance of a mandibular first molar under the influence of different endodontic access cavity design: a 3D finite element analysis study.

作者信息

Arıcan Burçin, Gündoğar Mustafa, Uslu Gülşah, Özyurek Taha

机构信息

Department of Endodontics, School of Dental Medicine, Bahçeşehir University, Istanbul, Türkiye.

Department of Endodontics, Faculty of Dentistry, Medipol University, Istanbul, Türkiye.

出版信息

Comput Methods Biomech Biomed Engin. 2025 Jan 29:1-12. doi: 10.1080/10255842.2025.2457124.

DOI:10.1080/10255842.2025.2457124

PMID:39881450

Abstract

Biomechanical properties of a mandibular first molar with different cavity designs [traditional access cavities (TEC-I & TEC-II), ninja access cavity (NEC), conservative access cavity (CEC), truss access cavity (Tr-EC), caries-driven access cavity (Cd-EC), caries-driven truss access cavity (Cd-TrEC)] were compared using finite element (FE) analysis. Models were subjected to three different loads. The highest stress distribution was observed on the enamel surface of the Cd-EC design and the dentin surface of the TEC-II. The stress was mainly concentrated on the lingual root surfaces and in the pericervical area. Enlarging the access cavity significantly increased stress distribution on enamel and dentin.

摘要

采用有限元分析比较了具有不同洞型设计的下颌第一磨牙的生物力学性能[传统开髓洞型（TEC-I和TEC-II）、忍者开髓洞型（NEC）、保守开髓洞型（CEC）、桁架开髓洞型（Tr-EC）、龋源性开髓洞型（Cd-EC）、龋源性桁架开髓洞型（Cd-TrEC）]。模型承受三种不同载荷。在Cd-EC设计的釉质表面和TEC-II的牙本质表面观察到最高应力分布。应力主要集中在舌根表面和颈部周围区域。扩大开髓洞型显著增加了釉质和牙本质上的应力分布。

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不同开髓洞形设计影响下下颌第一磨牙的力学抗力：一项三维有限元分析研究

Mechanical resistance of a mandibular first molar under the influence of different endodontic access cavity design: a 3D finite element analysis study.

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