Comparative evaluation of different fixation techniques for sagittal split ramus osteotomy in 10 mm advancements. Part two: Finite element analysis.
Authors of this article are:
Sigua-Rodriguez EA, Caldas RA, Goulart DR, Hemerson de Moraes P, Olate S, Ricardo Barão VA, Ricardo de Albergaria-Barbosa J.
A summary of the article is shown below:
PURPOSE: To evaluate three rigid, stable fixation methods for sagittal split ramus osteotomy (SSRO), using finite element analysis. The hypothesis is that a customized miniplate presents better stress concentration and distribution.MATERIALS AND METHODS: A 3D model of a hemimandible was created, and a 10-mm-advancement SSRO was simulated and fixed as follows: 3-DCP group – one custom miniplate fixed by eight screws; 4-H2P group – two miniplates of four holes each, fixed by eight screws; and 6-H2P group – two miniplates of six holes each fixed by 12 screws. After a vertical loading of 100 N, the values for von Mises stress, modified von Mises stress, and maximum and minimum principal stresses were measured.RESULTS: The area of maximum principal stress was similar for the three groups – located in the upper miniplate, in the screw near the proximal segment osteotomy. The maximum von Mises stresses were 1580.4 MPa, 1005 MPa, and 977.56 MPa for the 3DCP, 4-H2P, and 6-H2P groups, respectively, showing an allowable displacement of 2.57 mm, 1.62 mm, and 1.52 mm for the 3DCP, 4-H2P, and 6-H2P groups, respectively.CONCLUSION: The customized miniplate did not present better stress distribution than two commonly used types of fixation. Fixation with two straight miniplates, either with four or six holes, offers adequate resistance for 10 mm linear advancements.Copyright © 2019 European Association for Cranio-Maxillo-Facial Surgery. Published by Elsevier Ltd. All rights reserved.
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This article is a good source of information and a good way to become familiar with topics such as: Computer-aided design;Finite element analysis;Mandible;Sagittal split ramus osteotomy.
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