Purpose: The purpose of the study was to evaluate, using finite element analysis, the stress patterns induced in cortical bone by three distinct implant-supported prosthetic designs. Materials and Methods: The first two models consisted of a prosthesis supported by four implants, the distal two of which were tilted, with different cantilever lengths (5 mm and 15 mm). The third design consisted of a prosthesis supported by five conventionally placed implants and a 15-mm cantilever. Results: In the tilted model with 5-mm cantilever and in the nontilted model, the maximum value of compressive stress (-18 Mpa) was found near the cervical area of the distal implant. Higher values for compressive stress were predicted near the cervical area of the distal implant in the tilted model with a 15-mm cantilever, as compared to the tilted model with the 5-mm cantilever. For the tilted model with the 5-mm cantilever, peak values of tensile stress were predicted near the cervical area of both the distal (1.25 Mpa) and the mesial implants (2.5 Mpa). For the nontilted model, the peak value was found near the cervical area of the in-between implant (5 Mpa). For the tilted model with 15-mm cantilever, tensile stress values were higher than in the tilted model with 5-mm cantilever. Conclusions: No significant difference in stress patterns between the tilted 5-mm and the nontilted 15-mm configuration was predicted. The tilted configuration with a 15-mm cantilever was found to induce higher stress values than the tilted configuration with a 5-mm cantilever.

Comparison of Tilted and Nontilted Implant-Supported Prosthetic Designs for the Restoration of the Edentulous Mandible: A Biomechanical Study

RAIMONDI, MANUELA TERESA;
2009-01-01

Abstract

Purpose: The purpose of the study was to evaluate, using finite element analysis, the stress patterns induced in cortical bone by three distinct implant-supported prosthetic designs. Materials and Methods: The first two models consisted of a prosthesis supported by four implants, the distal two of which were tilted, with different cantilever lengths (5 mm and 15 mm). The third design consisted of a prosthesis supported by five conventionally placed implants and a 15-mm cantilever. Results: In the tilted model with 5-mm cantilever and in the nontilted model, the maximum value of compressive stress (-18 Mpa) was found near the cervical area of the distal implant. Higher values for compressive stress were predicted near the cervical area of the distal implant in the tilted model with a 15-mm cantilever, as compared to the tilted model with the 5-mm cantilever. For the tilted model with the 5-mm cantilever, peak values of tensile stress were predicted near the cervical area of both the distal (1.25 Mpa) and the mesial implants (2.5 Mpa). For the nontilted model, the peak value was found near the cervical area of the in-between implant (5 Mpa). For the tilted model with 15-mm cantilever, tensile stress values were higher than in the tilted model with 5-mm cantilever. Conclusions: No significant difference in stress patterns between the tilted 5-mm and the nontilted 15-mm configuration was predicted. The tilted configuration with a 15-mm cantilever was found to induce higher stress values than the tilted configuration with a 5-mm cantilever.
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11311/566606
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