Biomechanical effects of two different collar implant structures on stress distribution under cantilever fixed partial dentures
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Date
2011
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Publisher
Taylor & Francis Ltd
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Abstract
Objective. The purpose of the study was to compare the effects of two distinct collar geometries of implants on stress distribution in the bone around the implants supporting cantilever fixed partial dentures (CFPDs) as well as in the implant-abutment complex and superstructures. Materials and methods. The three-dimensional finite element method was selected to evaluate the stress distribution. CFPDs which was supported by microthread collar structured (MCS) and non-microthread collar structured (NMCS) implants was modeled; 300 N vertical, 150 N oblique and 60 N horizontal forces were applied to the models separately. The stress values in the bone, implant-abutment complex and superstructures were calculated. Results. In the MCS model, higher stresses were located in the cortical bone and implant-abutment complex in the case of vertical load while decreased stresses in cortical bone and implant-abutment complex were noted within horizontal and oblique loading. In the case of vertical load, decreased stresses have been noted in cancellous bone and framework. Upon horizontal and oblique loading, a MCS model had higher stress in cancellous bone and framework than the NMCS model. Higher von Mises stresses have been noted in veneering material for NMCS models. Conclusion. It has been concluded that stress distribution in implant-supported CFPDs correlated with the macro design of the implant collar and the direction of applied force.
Description
Özden, Utku Ahmet/0000-0003-0463-7036; ERKMEN, Erkan/0000-0002-4746-5281
Keywords
dental stress analysis, implant collar, cantilever fixed partial denture
Turkish CoHE Thesis Center URL
Fields of Science
Citation
7
WoS Q
Q3
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Source
Volume
69
Issue
6
Start Page
374
End Page
384