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Three Dimensional Finite Element Analysis on ITI Implant Supported Fixed Partial Dentures with Various Fitting Accuracy  

Choi, Min-Ho (Department of Prosthetic Dentistry, Dental College, Wonkwang University)
Lee, Il-Kwon (Department of Prosthetic Dentistry, Dental College, Wonkwang University)
Kim, Yu-Ree (Department of Prosthetic Dentistry, Dental College, Wonkwang University)
Cho, Hye-Won (Department of Prosthetic Dentistry, Dental College, Wonkwang University)
Publication Information
Journal of Dental Rehabilitation and Applied Science / v.22, no.1, 2006 , pp. 75-87 More about this Journal
Abstract
The purpose of this study was to investigate the effects of prostheses misfit, cantilever on the stress distribution in the implant components and surrounding bone using three dimensional finite element analysis. Two standard 3-dimensional finite element models were constructed: (1) 3 ITI implant supported, 3-unit fixed partial denture and (2) 3 ITI implant supported, 3-unit fixed partial denture with a distal cantilever. variations of the standard finite element models were made by placing a $100{\mu}m$ or $200{\mu}m$ gap between the fixture, the abutment and the crown on the second premolar and first molar. Total 14 models were constructed. In each model, 244 N of vertical load and 244 N of $30^{\circ}$ oblique load were placed on the distal marginal ridge of the distal molar. von Mises stresses were recorded and compared in the crowns, abutments, crestal compact bones, and trabecular bones. The results were obtained as follows: 1. In the ITI implant system, cement-retained prostheses showed comparatively low stress distributions on all the implant components and fixtures regardless of the misfit sizes under vertical loading. The stresses were increased twice under oblique loading especially in the prostheses with cantilever, but neither showed the effects of misfit size. 2. Under the oblique loading and posterior cantilever, the stresses were highly increased in the crestal bones around ITI implants, but effects of misfit were not shown. Although higher stresses were shown on the apical portion of trabecular bones, the effects by misfit were little and the stresses were increased by the posterior cantilever. 3. When the cement loss happened in the ITI implant supported FPD with misfit, the stresses were increased in the implant componets and supporting structures.
Keywords
Misfit prosthesis; Finite element stress analysis; Posterior antilever; Implant-supported FPD; Cement-retained prosthesis;
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