用复合树脂充填材料及铸造桩或玻璃纤维桩修复的根管治疗虚拟牙齿的应力评估——有限元分析

Stress Evaluation in Endodontically Treated Virtual Teeth Restored with Composite Fillings and Cast or Fiberglass Posts-A Finite Element Analysis.

作者信息

Brătoiu Mihaela-Roxana, Mercuț Răzvan, Iacov-Crăițoiu Monica Mihaela, Scrieciu Monica, Măgureanu Murariu Cătălina, Stănuși Andreea, Popa Dragoș Laurențiu, Mercuț Veronica

机构信息

Department of Prosthetic Dentistry, University of Medicine and Pharmacy of Craiova, 200349 Craiova, Romania.

Department of Plastic Surgery, University of Medicine and Pharmacy of Craiova, 200349 Craiova, Romania.

出版信息

Biomedicines. 2025 Apr 16;13(4):974. doi: 10.3390/biomedicines13040974.

DOI:10.3390/biomedicines13040974

PMID:40299677

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC12024715/

Abstract

Among the complications of endodontic treatment, root fractures are the most severe and may require tooth extraction. The objective of this study was to develop virtual models of mandibular molars with different endodontic restorations to assess the stress distribution in tooth structures based on the type of corono-radicular restoration, compared with the model of an intact molar. : Four virtual models of a mandibular molar were created: (1) an intact molar with preserved enamel, dentin, dental pulp and cementum; (2) an endodontically treated molar restored with a composite filling; (3) a molar restored with a fiberglass post and monolithic zirconia crown; (4) a molar restored with a metal cast post and monolithic zirconia crown. External force loads from 0 to 800 N were simulated using Finite Element Method (FEM). : The highest displacement, strain and stress values were observed in the molar restored with a composite filling, whereas the lowest values were recorded in the molar restored with a fiberglass post and zirconia crown. Critical stresses were primarily concentrated on the pulp chamber floor. : The pulp chamber floor was identified as the most vulnerable area for fracture. This underscores the importance of preserving tooth structure to enhance the strength and durability of molars throughout and beyond endodontic treatment.

摘要

在牙髓治疗的并发症中，牙根折裂最为严重，可能需要拔牙。本研究的目的是建立具有不同牙髓修复体的下颌磨牙虚拟模型，以根据冠根修复类型评估牙齿结构中的应力分布，并与完整磨牙模型进行比较。创建了四个下颌磨牙虚拟模型：（1）保留釉质、牙本质、牙髓和牙骨质的完整磨牙；（2）用复合充填材料修复的牙髓治疗后磨牙；（3）用玻璃纤维桩和整体式氧化锆全冠修复的磨牙；（4）用铸造金属桩和整体式氧化锆全冠修复的磨牙。使用有限元方法（FEM）模拟了从0到800 N的外力载荷。在复合充填修复的磨牙中观察到最高的位移、应变和应力值，而在玻璃纤维桩和氧化锆全冠修复的磨牙中记录到最低值。临界应力主要集中在髓室底。髓室底被确定为最易发生骨折的区域。这强调了在整个牙髓治疗及后续过程中保留牙齿结构以增强磨牙强度和耐久性的重要性。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/a055/12024715/95b3b10a8228/biomedicines-13-00974-g001.jpg

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用复合树脂充填材料及铸造桩或玻璃纤维桩修复的根管治疗虚拟牙齿的应力评估——有限元分析

Stress Evaluation in Endodontically Treated Virtual Teeth Restored with Composite Fillings and Cast or Fiberglass Posts-A Finite Element Analysis.

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