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Article type: Research Article
Authors: Robau-Porrua, Amanda a; | Pérez-Rodríguez, Yoan b | Soris-Rodríguez, Laura M.a | Pérez-Acosta, Osmel b | González, Jesús E.c
Affiliations: [a] Department of Technology of Machinery Construction, Mechanical Engineering Faculty, Technological University of Havana José Antonio Echeverría, Cuba | [b] Autonomous University of Nuevo León, FIME, México | [c] Department of Ceramic and Metallic Biomaterials, Biomaterials Center, University of Havana, Cuba
Correspondence: [*] Corresponding author: Amanda Robau-Porrua, Department of Technology of Machinery Construction, Mechanical Engineering Faculty, Technological University of Havana José Antonio Echeverría, Calle 114 #11901/Ciclovía y Rotonda, Marianao, La Habana, CP 19390, Cuba. Tel.: 5372663846; E-mail: arobau@mecanica.cujae.edu.cu, Web: www.cujae.edu.cu/en/
Abstract: This study investigated the effect of three different parameters of a dental implant on stress and strain values in the peri-implant bone by finite element analysis. In this work, the effect of diameter, length and elastic modulus on the biomechanical behavior of a new dental implant was simulated using the finite element method. A three-dimensional model of a mandible segment corresponding to the premolar region and twelve dental implant models were obtained. Loads in three directions were distributed on the surface of the coronal area of the dental implants. The dental implant models were obtained in the FreeCAD 0.16 software and the simulations were made using the Abaqus/CAE software. In all cases, higher stress concentrations were obtained in the peri-implant cortical bone between 40.6 and 62.8 MPa, while the highest levels of strain were observed in the peri-implant trabecular bone between 0.002544 and 0.003873. In general, the highest von Mises equivalent stress values were observed in the peri-implant cortical bone. However, in this bone, both the maximum von Mises equivalent stress values and the von Mises strain are similar or inferior to those reported in different studies by finite element for other models of dental implants under immediate loading. Maximum von Mises strain values were observed in peri-implant trabecular bone. However, in this bone strains levels were obtained that maintain bone density or increase it. The effect of the three simulated variables (implant diameter, length, and elastic modulus) have a statistically significant influence on the von Mises equivalent stress and in von Mises strain values.
Keywords: Dental implant, elastic modulus, finite element method, strain, stress
DOI: 10.3233/BME-191073
Journal: Bio-Medical Materials and Engineering, vol. 30, no. 5-6, pp. 541-558, 2020
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