人类上颌牙槽骨的开窗与骨缺损：一项使用有限元方法的计算机模拟研究

Fenestration and Dehiscence in Human Maxillary Alveolar Bone: An In Silico Study Using the Finite Element Method.

作者信息

Furlan Camila C, Freire Alexandre R, Ferreira-Pileggi Beatriz C, Prado Felippe B, Rossi Ana Cláudia

机构信息

Biosciences, Piracicaba Dental School, University of Campinas (UNICAMP), Piracicaba, BRA.

出版信息

Cureus. 2023 Dec 19;15(12):e50772. doi: 10.7759/cureus.50772. eCollection 2023 Dec.

DOI:10.7759/cureus.50772

PMID:38239557

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC10795457/

Abstract

INTRODUCTION

Fenestration and dehiscence are alveolar bone defects. Although not considered a pathology, these alveolar bone defects end up influencing dental treatment, such as surgeries, mainly periodontal, and therefore must be considered during treatment planning. However, currently, little is known about the biomechanical origin of these bone formations. The aim of the study was to use the finite element method (FEM) to test hypotheses of predictive factors for fenestrations and dehiscence in human alveolar bone.

METHODS

A FEM simulation of the action of functional, parafunctional, and orthodontic occlusal loads on the upper central incisor and upper canine was performed. For the simulation, a three-dimensional model of an adult human skull, fully dented and with intact bone structure, was constructed from computed tomography images. The buccal alveolar bone lamina was evaluated considering the calculation of equivalent stresses, as well as maximum principal stresses.

RESULTS

The action of functional and parafunctional forces on the incisal edges and the orthodontic force on the buccal face of the upper central incisor and upper canine teeth generated tensions at different levels of magnitude in the buccal bone lamina, varying in regions, at all levels of strength. Changing levels of force magnitude resulted in variations in relation to the level of deformation.

CONCLUSION

The computational simulation using the FEM was able to identify a difference in stress in the alveolar bone tissue in each of the applied forces. The difference in stresses obtained may suggest the formation of dehiscence or fenestration in the region studied.

摘要

引言

开窗和骨裂是牙槽骨缺损。尽管不被视为一种病理状态，但这些牙槽骨缺损最终会影响牙科治疗，如手术，主要是牙周手术，因此在治疗计划中必须予以考虑。然而，目前对于这些骨形成的生物力学起源知之甚少。本研究的目的是使用有限元方法（FEM）来检验关于人类牙槽骨开窗和骨裂预测因素的假设。

方法

对上前牙和上尖牙施加功能、副功能和正畸咬合负荷的作用进行有限元模拟。为进行模拟，从计算机断层扫描图像构建了一个完全牙列完整且骨结构完整的成年人类头骨三维模型。考虑等效应力以及最大主应力的计算来评估颊侧牙槽骨板。

结果

功能和副功能力作用于切缘以及正畸力作用于上前牙和上尖牙的颊面，在颊侧骨板的不同强度水平产生了不同程度的张力，在不同区域有所变化。力大小水平的改变导致了与变形水平相关的变化。

结论

使用有限元方法进行的计算模拟能够识别每种施加力作用下牙槽骨组织中的应力差异。所获得的应力差异可能表明在所研究区域形成了骨裂或开窗。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/43ef/10795457/f151efca9c9c/cureus-0015-00000050772-i01.jpg

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人类上颌牙槽骨的开窗与骨缺损：一项使用有限元方法的计算机模拟研究

Fenestration and Dehiscence in Human Maxillary Alveolar Bone: An In Silico Study Using the Finite Element Method.

作者信息

机构信息

出版信息

INTRODUCTION

METHODS

RESULTS

CONCLUSION

引言

方法

结果

结论

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