下颌后牙区短种植体与标准种植体的比较：基于有限元法的三维分析

Comparison of Short and Standard Implants in the Posterior Mandible: A 3D Analysis Using Finite Element Method.

作者信息

Geramy Allahyar, Rokn Amirreza, Keshtkar Abbasali, Monzavi Abbas, Hashemi Hamid Mahmood, Bitaraf Tahereh

机构信息

Professor, Dental Research Center, Dentistry Research Institute, Tehran University of Medical Sciences, Tehran, Iran; Department of Orthodontics, School of Dentistry, Tehran University of Medical Sciences, Tehran, Iran.

Professor, Dental Implant Research Center, Dentistry Research Institute, Tehran University of Medical Sciences, Tehran, Iran; Department of Periodontics, School of Dentistry, Tehran University of Medical Sciences, Tehran, Iran.

出版信息

J Dent (Tehran). 2018 Mar;15(2):130-136.

PMID:29971131

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6026314/

Abstract

OBJECTIVES

This study aimed to analyze functional stresses around short and long implant-supported prostheses with different crown heights.

MATERIALS AND METHODS

Four three-dimensional (3D) models were designed with SolidWorks 2015. In models 1 (control) and 2, three dental implants (second premolar 4.1×8 mm, molars: 4.8×8 mm) were placed. In models 3 and 4, three dental implants (second premolar 4.1×4 mm, molars: 4.8×4) were placed. Residual bone height was 10 mm in groups 1 and 2 (grafted bone) models and 6 mm in groups 3 and 4. The crown heights were modeled at 11.5 mm for groups 1 to 3, and 15 mm for group 4. The applied oblique force was 220 N to simulate chewing movements. The maximum von Mises and principal stresses on the implants and the supporting tissues were compared using the 3D finite element method.

RESULTS

In all models, the highest stress value was seen within the most coronal part of bone (crestal bone), which was cortical or grafted bone. The highest stress values in the bone supporting the implant neck were seen in the premolar region of each model, especially in model 4 (291.16 MPa). The lowest stress values were demonstrated in the molar region of model 3 (48.066 MPa). The model 2 implants showed the highest von Mises stress concentrated at their neck (424.44 MPa).

CONCLUSIONS

In atrophic posterior mandible with increased crown height space, short implants with wider diameter seem to be a more feasible approach compared to grafting methods.

摘要

目的

本研究旨在分析不同冠高的短种植体和长种植体支持的修复体周围的功能应力。

材料与方法

使用SolidWorks 2015设计了四个三维（3D）模型。在模型1（对照）和2中，植入了三颗牙种植体（第二前磨牙：4.1×8 mm，磨牙：4.8×8 mm）。在模型3和4中，植入了三颗牙种植体（第二前磨牙：4.1×4 mm，磨牙：4.8×4 mm）。第1组和第2组（植骨）模型的剩余骨高度为10 mm，第3组和第4组为6 mm。第1组至第3组的冠高建模为11.5 mm，第4组为15 mm。施加220 N的斜向力以模拟咀嚼运动。采用三维有限元方法比较种植体和支持组织上的最大von Mises应力和主应力。

结果

在所有模型中，最高应力值出现在骨的最冠部（嵴顶骨），即皮质骨或植骨。每个模型的前磨牙区域在支持种植体颈部的骨中出现最高应力值，尤其是在模型4中（291.16 MPa）。模型3的磨牙区域显示出最低应力值（48.066 MPa）。模型2的种植体在其颈部显示出最高的von Mises应力集中（424.44 MPa）。

结论

在冠高空间增加的萎缩性下颌后牙区，与植骨方法相比，直径较宽的短种植体似乎是一种更可行的方法。

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下颌后牙区短种植体与标准种植体的比较：基于有限元法的三维分析

Comparison of Short and Standard Implants in the Posterior Mandible: A 3D Analysis Using Finite Element Method.

作者信息

机构信息

出版信息

OBJECTIVES

MATERIALS AND METHODS

RESULTS

CONCLUSIONS

目的

材料与方法

结果

结论

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