The objective of this current in silico study was to evaluate the influence of axial and non-axial loads on unitary implant-supported implants, with external hexagon or Morse-taper connection in two different bone level, using finite element analysis. Two implant models with the same length (13 x 3.75 mm) were analyzed according to the prosthetic connection (external hexagon or morse Taper) and bone height (bone level or 5 mm of bone loss). Both implant systems received screw-retained metallic crowns in chromium-cobalt. The peri-implant tissue was simulated as an isotropic material (polyurethane resin). The polyurethane block has been fixed and a load of 300 N was applied on the occlusal surface in two different directions (Axial or Non-axial) for each implant model and bone condition. The results were analyzed in terms of von-Mises stress and bone microstrain. The materials were considered isotropic, homogeneous, linear and elastic. The results showed that there is no difference regarding the prosthetic connection for the generated stress and strain under the same load incidence. However, bone loss and non-axial loadings increased the stress and strain magnitude regardless the prosthetic connections. In conclusion, the load incidence is more prone to modify the implant stress and bone microstrain than the prosthethic connection. In addition, the higher the bone loss the higher the stress and strain magnitude generated, regardless the loading condition.
ResumoIntrodução: O controle das microdeformações ao redor dos implantes é um fator que pode levar a uma melhor osseointegração e manutenção das estruturas ósseas. Objetivo: Avaliar a distribuição de tensões ao redor dos implantes, utilizando-se a extensometria, sob a influência da aplicação de cargas estáticas axiais e não axiais em próteses parciais fixas de três elementos, em diferentes pontos de aplicação de carga. Material e método: Em um bloco de poliuretano, foram instalados três implantes de hexágono interno e, sobre esses implantes, pilares protéticos microunit foram conectados com torque de 20 Ncm. Cilindros plásticos foram utilizados para realização dos enceramentos padronizados que, posteriormente, foram fundidos em liga de cobalto cromo. Extensômetros foram colados na superfície do bloco ao redor dos três implantes. As estruturas metálicas foram parafusadas com torque de 10 Ncm cada. Em seguida, foram realizados carregamentos verticais estáticos de 30 kgf, durante dez segundos, em cinco pontos pré-determinados (A, B, C, D e E), utilizando um dispositivo de aplicação de cargas (DAC). Resultado: Os dados foram analisados pelo teste RM ANOVA, que indicou que o efeito entre o ponto de aplicação de carga e os diferentes corpos de prova não foi estatisticamente significante, enquanto que, para o efeito entre os pontos de aplicação de carga, houve diferença (p=0,0001). Em seguida, aplicou-se o teste de comparação múltipla de Tukey. Conclusão: A aplicação de carga sobre os pontos não axiais D e E produziu um aumento da magnitude de microdeformação ao redor dos implantes.Descritores: Implantes dentários; prótese parcial fixa; prótese dentária. AbstractIntroduction: The control of the micro strain surrounding implants is a factor that can lead to a better osseointegration and maintenance of bone structures. Objective: evaluate in vitro, using strain gauge analysis , the influence of the axial and non-axial static load in implant-supported fixed partial dentures, varying the point of load application. Material and method: In a block of polyurethane three internal hexagonal implants were installed, on implants abutments microunit were connected with torque of 20 Ncm, and plastic prosthetic cylinders were screwed on to the abutments, which received standard patterns cast in Co-Cr alloy (n=10). Four strain gauges were bonded on the surface of the block tangentially to the three implants. Each metallic structure was screwed onto the microunit with a 10 Ncm torque. With a load application device (DAC) static vertical loads of 30kgf were applied for ten seconds at five predetermined points (A, B, C, D and E). Result: Result analyzed by RM ANOVA, in which the effect of the point of load application and differents specimens were not statistically significant, whereas regarding the points of load application presented statistical differenced (p=0.0001). Applying Tukey's multiple comparison tests. Conclusion: The application of load on the non-axial points D and E produced an increase in the magnitude of micro strain ar...
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