Biomechanical Finite Element Analysis of Two Types of Short-Angled Implants Across Various Bone Classifications.
Autor: | Ceddia, Mario, Romasco, Tea, De Bortoli Jr., Nilton, Mello, Bruno Freitas, Piattelli, Adriano, Mijiritsky, Eitan, Di Pietro, Natalia, Trentadue, Bartolomeo |
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Zdroj: | Materials (1996-1944); Dec2024, Vol. 17 Issue 23, p5680, 19p |
Abstrakt: | The aim of this finite element analysis (FEA) was to investigate the distribution of von Mises stress within dental implant components, as well as trabecular and cortical bone. The study considered various bone qualities that influence cortical thickness in contact with the implant, specifically examining cortical thicknesses of 0.5, 1.5, and 3 mm, corresponding to Bergkvist's classifications IV, III, and II, respectively. A simplified 3D model of the bone was developed for the analysis. Two short implants were inserted into the model: one with a 30° inclined abutment (IA) and another positioned at a 30° angle featuring a straight abutment (II). A vertical force (120 N) was applied to the upper surface of the abutments. FEA software was employed to assess the stresses on the peri-implant tissues and the implants. The findings indicated that a reduction in cortical bone thickness results in an increase in stress within the cortical bone. For IA, the stresses recorded 32.56, 56.12, and 96.14 MPa for cortical thicknesses of 3, 1.5, and 0.5 mm, respectively. Conversely, II exhibited increased stresses across all bone qualities (52.32, 76.15, and 126.32 MPa for the same cortical thicknesses). It is advisable to avoid II in cases of poor bone quality and thin cortical due to the heightened risk of overload-induced bone resorption; however, it may be preferable to use IA in scenarios involving good bone quality and thicker cortical. [ABSTRACT FROM AUTHOR] |
Databáze: | Complementary Index |
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