Stress distribution of complete-arch implant-supported prostheses reinforced with silica-nylon mesh
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Tarcisio-José de A. Paes-Junior [1] ; João-Paulo-Mendes Tribst [1] ; Amanda-Maria-de Oliveira Dal Piva [1] ; Marina Amaral [2] ; Alexandre-Luiz-Souto Borges [1] ; Fernanda-de-Cássia-Papaiz Gonçalves [3]
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[1] Universidade Estadual Paulista
Universidade Estadual Paulista
Brasil
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[2] Universidade de Taubaté
Universidade de Taubaté
Brasil
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[3] DDs, MSc, PhD, Professor, Department of Prosthodontics, Brazcubas Education, Mogi das Cruzes, Brazil
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- Localización: Journal of Clinical and Experimental Dentistry, ISSN-e 1989-5488, Vol. 11, Nº. 12 (November), 2019, págs. 1163-1169
- Idioma: inglés
- Enlaces
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Resumen
This study evaluated the presence of a silica-nylon mesh and two cantilever lengths on the biomechanical behavior of complete-arch implant-supported prostheses.
Twenty-four (24) complete mandibular arch implant-supported prostheses were divided into 4 groups according to the presence of reinforcing mesh (with or without) and the cantilever length (molar – 15 mm or premolar – 5 mm). The specimens were submitted to strain gauge analysis (30-kgf, 10 s) at different points (molar and premolar). Three-dimensional models were created based on the in vitro specimens, and the results in the bone (microstrain), prostheses (tensile stress), implants and prosthetic screws (von-Mises stress) were evaluated using the finite element method (FEM). All materials were considered homogeneous, isotropic and linear. Strain gauge data were submitted to 3-way analysis of variance and the Tukey test (α=.05). FEM results were qualitatively analyzed using colorimetric graphs.
The microstrain magnitude for the prostheses with reinforcement was 519.91±359 and 583.33±661 without reinforcement (p=.001). The microstrain values for loading on the molar was 867.49±784 and on the premolar was 235.75±145. FEM corroborated with the in vitro findings for the bone behavior. The load application in the premolar showed reduced stress concentration, and a significant difference was observed between the presence or absence of the reinforcement for the prostheses.
Silica-nylon mesh reduced the peri-implant microstrain and the prosthesis stress regardless of the cantilever extension. For temporary complete-arch implant-supported prostheses, the limitation of the cantilever to the premolar region improves the biomechanical response during load application.
