Parametric Optimization of Dental Implants

Q3 Engineering

Mechanics and Mechanical Engineering Pub Date : 2018-12-01 DOI:10.2478/mme-2018-0084

Wafa Bensmain, Mohammed Benlebna, B. Serier, B. Abbès, B. Bouiadjra

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Abstract

Abstract Osseointegration is a fundamental phenomenon of dental implantology. It ensures the stability, the safety and the durability of dental implants and predictable clinical success in long-term. The geometric form of the implant is a defining parameter of osseointegration and implant-bone charge transfer. This is the essential constitutes of this study. In fact, we demonstrate using the finite elements method with tridimensional numerical computations, that the geometrical parameters of the implant conditionate the level and the repartition of the stresses, induced in the cortical bone and the spongy bone during the masticatory process, simulated here by dynamic charging. The effect of several parameters [size and conicity of the implant neck, size and radius of curvature of the implant apex] and the shape of the implant corps on the biomechanical behavior of the bone. The latest was analyzed in terms of variation of the equivalent stress induced in the bone. The purpose of this analysis was the developing of an implant form allowing stress relaxation, during the mastication process, in the living tissue.

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种植牙的参数优化

骨整合是种植牙的基本现象。它保证了种植体的稳定性、安全性和耐久性，以及长期可预测的临床成功。种植体的几何形状是骨整合和种植体-骨电荷转移的决定性参数。这是本研究的基本组成部分。事实上，我们用三维数值计算的有限元方法证明，种植体的几何参数决定了咀嚼过程中皮质骨和海绵状骨的应力水平和再分配，在这里通过动态充电模拟。几个参数[种植体颈部的大小和圆锥度，种植体顶点的大小和曲率半径]和种植体团的形状对骨的生物力学行为的影响。最后从骨内等效应力变化的角度进行了分析。这项分析的目的是开发一种植入物形式，允许在咀嚼过程中在活组织中放松压力。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Mechanics and Mechanical Engineering Engineering-Automotive Engineering

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