Tsutomu Sugiura, Kazuhiko Yamamoto, Masayoshi Kawakami, Satoshi Horita, Kazuhiro Murakami, Tadaaki Kirita
Objectives: The success rate of dental implants depends on the type of bone at the implant site. The purpose of the present study was to investigate the effects of the bone parameters at the implant-placement site on peri-implant bone strain distributions.
Study Design: The morphologies and bone densities of seventy-five potential implant sites in the posterior man - dible were measured using computed tomography (CT). Based on the CT data, we defined bone parameters (low and high in terms of cancellous-bone density and crestal-cortical bone density, and thin and thick in terms of crestal-cortical bone thickness), and we constructed finite-element models simulating the various bone types.
A buccolingual oblique load of 200 N was applied to the top of the abutment. The von Mises equivalent (EQV) strains in the crestal-cortical bone and in the cancellous bone around the implant were calculated.
Results: Cancellous-bone density greatly affected the maximum EQV strain regardless of the density and thick - ness of the crestal cortical-bone. The maximum EQV strains in the crestal cortical-bone and the cancellous bone in the low-density cancellous-bone models (of 150 Hounsfield units (HU) were 1.56 to 2.62-fold and 3.49 to 5.31- fold higher than those in the high-density cancellous-bone models (of 850 HU), respectively. The crestal cortical- bone density affected the maximum EQV strains in the crestal cortical-bone and in the cancellous bone in the low-density cancellous-bone models. The crestal cortical-bone thickness affected the maximum EQV strains in the cancellous bone and in the crestal cortical-bone in the low-density cancellous-bone models.
Conclusions: Our results confirm the importance of bone types for the peri-implant bone strain distribution.
Cancellous-bone density may be a critical factor for peri-implant bone strain
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