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Volume 17 , Issue 3
May/June 2002

Pages 353362

Two Dental Implants Designed for Immediate Loading: A Finite Element Analysis

Laurent Pierrisnard, DDS, Guy Hure, DDS, Michel Barquins, DSc, Daniel Chappard, Dr Med

PMID: 12074450

Purpose: The aim of this study was to evaluate by finite element analysis the influence of the design of 3 different dental implants on micromovements, cervical shearing stress intensity, and stress distribution after occlusal loading. Materials and Methods: The first investigated implant was a classical cylinder, the second was reinforced by 2 bicortical locking pins, and the third was an expanding dental implant. The parameters analyzed were the implant’s geometry, the quality of the cancellous bone, and the orientation of occlusal loading. Results: It was found that initial stability of the locking pin implant was greater than the initial stability of the other investigated implant designs, regardless of the quality of cancellous bone and orientation of occlusal loading; in low-rigidity cancellous bone, under a horizontal load (500 N), decreasing displacement compared to those of the other investigated implants was 16 m. The apical expansion and locking pin implants exhibited favorable behavior regarding the distribution and intensity of cervical shearing stresses; in low-rigidity cancellous bone, under horizontal load, decreasing cervical stresses compared with those of the cylindric implant were 10 MPa for the apical expansion implant and 150 MPa for the locking pin implant. Discussion: For the cylindric implant, stresses were concentrated in the neck region; for the apical expansion implant, stresses were evenly distributed from the neck to the apex of the implant. For the locking pin implant, stresses around the neck were moderate and appeared concentrated around the pins. Conclusions: Initial stability of the pin implant was greater than that of the expanding implant, but the expanding implant showed the most favorable stress distribution. (INT J ORAL MAXILLOFAC IMPLANTS 2002;17:353362)

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