下颌骨(节肢动物口器)
植入
压力(语言学)
皮质骨
材料科学
松质骨
有限元法
牙科
口腔正畸科
医学
解剖
外科
结构工程
生物
工程类
语言学
哲学
植物
属
作者
Vangi Dario,Gulino Michelangelo-Santo,Branchi Roberto,Ferretti Fabio
标识
DOI:10.1016/j.jormas.2023.101463
摘要
The aim of the work is to analyze stress distribution on 3D Finite Element (FE) models at bone, implant, and framework level of different designs for fixed implant-supported prostheses in completely edentulous patients, comparing results on whole and partially resected mandibles.3D anisotropic FE models of a whole and of a partially resected mandible were created using a TC scan of a cadaver's totally edentulous mandible. Two types of totally implant-supported rehabilitation were simulated, with four implants: parallel fixtures on whole mandible and on resected mandible, All-on-four-configured fixtures on whole mandible and on partially resected mandible. A superstructure comprising only metal components of a prosthetic framework were added, while stress distribution and its maximum values were analyzed at bone, implant, and superstructure level.The results highlight that: 1) implant stresses are greater on the whole mandible than on the resected one; 2) framework and cancellous-bone stresses are comparable in all cases; 3) on the resected mandible, maximum stress levels at the cortical-bone/implant interface are higher than in whole-mandible rehabilitation. The opposite applies for maximum stresses on external cortical bone, measured radially with respect to the implant from the point of maximum stress at the interface.On the resected mandible, All-on-four configuration proved biomechanically superior to parallel implants considering radial stresses on implants and cortical bone. Still, maximum stresses increase at the bone/implant interface. A design with four parallel implants minimizes the stress on a resected mandible while, on the whole mandible, the All-on-four rehabilitation proves superior at all levels (bone, implant, and framework).
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