1. Finite Element Study of Three Different Treatment Designs of a Mandibular Three Implant-Retained Overdenture
- Author
-
Mohammad Shishesaz, Amin Baharan, and Assadollah Ahmadzadeh
- Subjects
Materials science ,genetic structures ,Overdenture stability ,implant ,cortical bone ,Aerospace Engineering ,Ocean Engineering ,Mandibular first molar ,03 medical and health sciences ,0302 clinical medicine ,Premolar ,medicine ,General Materials Science ,lcsh:QC120-168.85 ,Civil and Structural Engineering ,Orthodontics ,Mechanical Engineering ,Linear elasticity ,030206 dentistry ,Finite element method ,medicine.anatomical_structure ,cancellous bone ,Mechanics of Materials ,Automotive Engineering ,Ball (bearing) ,lcsh:Descriptive and experimental mechanics ,Cortical bone ,Implant ,lcsh:Mechanics of engineering. Applied mechanics ,lcsh:TA349-359 ,Cancellous bone ,human activities ,030217 neurology & neurosurgery ,Biomedical engineering - Abstract
This study compares ball, bar-clip and bar-ball attachment systems for implant-retained mandibular overdentures with three implants. The first implant is placed in the middle of the mandible and the other two are imbedded in the first premolar regions. Linear elastic finite element analysis is used for design analysis. Three dimensional geometry of the mandible is generated from computed tomography. Other parts are modeled using SolidWorks software. The foodstuff is positioned at the right first molar, representing the most frequent masticating situation. To obtain accurate mesh-independent results, finite element models are solved using several mesh grids. They are then validated by means of a detailed convergence analysis. The results demonstrate that the highest von-Mises stress in the bone is always located around the neck of the implant, at its upper threads. Ball and bar-ball attachments transfer the highest and lowest stresses to the bone surrounding the implants, respectively. The lowest stresses in the cortical and cancellous bones are due to bar-ball attachment. Yet, the overdenture gets its maximum movement for this arrangement. Consequently, the use of bar-ball attachment is only recommended for the cases in which stress transferred to peri-implant bone is more important than overdenture stability. Among the three treatment designs, ball attachment seems to exhibit the lowest lateral and overall displacements and hence, better overdenture stability.
- Published
- 2016