上颌第一磨牙三种不同根管口形态的生物力学行为和寿命：有限元分析。

The Biomechanical Behaviour and life span of a Three-Rooted Maxillary First Premolar with Different Access Cavity Designs: A Finite Element Analysis.

机构信息

Department of Endodontics, Faculty of Dentistry, The British University in Egypt, Cairo, Egypt.

Private Practice, Rome, Italy.

出版信息

Eur Endod J. 2023 May;8(3):231-236. doi: 10.14744/eej.2023.07078.

DOI:10.14744/eej.2023.07078

PMID:37257033

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC10244916/

Abstract

OBJECTIVE

The present study aimed to evaluate the influence of different access cavity designs on the biomechanical behaviour of a three-rooted maxillary first premolar using finite element analysis (FEA).

METHODS

Three experimental FEA models were generated: the intact tooth (IT) model, the traditional access cavity (TAC) model, and the conservative access cavity (CAC) model. In both TAC and CAC models, root canals preparation was simulated as follows: the mesiobuccal and distobuccal canals with a final tip size of 30 and taper of 0.04 and the palatal canal with a final tip size of 35 and taper of 0.04. Cyclic loading of 50 N was simulated on the occlusal surface of the three models. The number of cycles until failure (NCF), the location of failure, stress distribution patterns, maximum von Mises (VM), and maximum principal stress (MPS) were all evaluated and compared.

RESULTS

Both types of access cavity preparation caused a reduction in the lifelog of the tooth; when compared to the IT model the TAC model had a lifelog of 94.82% while the CAC model had a lifelog of 95.80%. The maximum VM stresses value was registered on the occlusal surface of the TAC model (7 MPa), while the minimum was on the occlusal surface of the IT (6.2 MPa). MPS analysis showed that the highest stress value was recorded on the occlusal surface of the CAC model (7.71 MPa), while the least was recorded on the occlusal surface of the TAC model (3.77 MPa). Radicular stresses were always of minimal value regardless the model.

CONCLUSION

The relation between the access cavity margins and the functional load points is a deciding factor that influences the biomechanical behaviour and fatigue life of endodontically treated teeth. (EEJ-2023-01-03).

摘要

目的

本研究旨在通过有限元分析（FEA）评估不同开髓洞形设计对上颌第一磨牙三根的生物力学行为的影响。

方法

生成了三个实验有限元模型：完整牙（IT）模型、传统开髓洞形（TAC）模型和保守开髓洞形（CAC）模型。在 TAC 和 CAC 模型中，根管预备模拟如下：近颊和远颊根管的最终尖端尺寸为 30，锥度为 0.04，腭根管的最终尖端尺寸为 35，锥度为 0.04。在三个模型的咬合面上模拟 50 N 的循环加载。评估并比较了失效循环数（NCF）、失效位置、应力分布模式、最大 von Mises（VM）和最大主应力（MPS）。

结果

两种开髓洞形预备都会导致牙的寿命缩短；与 IT 模型相比，TAC 模型的寿命为 94.82%，而 CAC 模型的寿命为 95.80%。最大 VM 应力值记录在 TAC 模型的咬合面（7 MPa），而最小的记录在 IT 模型的咬合面（6.2 MPa）。MPS 分析表明，最高的应力值记录在 CAC 模型的咬合面（7.71 MPa），而最小的记录在 TAC 模型的咬合面（3.77 MPa）。根管内的应力始终处于最小值，与模型无关。

结论

开髓洞边缘与功能加载点之间的关系是影响根管治疗后牙齿生物力学行为和疲劳寿命的决定性因素。（EEJ-2023-01-03）。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/01cf/10244916/5007e821ba6b/EEJ-8-231-g001.jpg

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上颌第一磨牙三种不同根管口形态的生物力学行为和寿命：有限元分析。

The Biomechanical Behaviour and life span of a Three-Rooted Maxillary First Premolar with Different Access Cavity Designs: A Finite Element Analysis.

机构信息

出版信息

OBJECTIVE

METHODS

RESULTS

CONCLUSION

目的

方法

结果

结论

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