The influence of implant geometry on the stress distribution around dental implants

## Abstract A three‐dimensional finite element analysis (FEA) has been used to determine the effect of implant elastic modulus on stresses in tissues around LTI carbon and aluminium oxide dental implants. The finite element model was constructed to represent a baboon mandible containing a blade typ

## Abstract Three‐dimensional finite element stress analysis was used to study the effects that implant neck geometry and the tissue properties at the implant‐bone interface have on the stress distribution around freestanding blade‐ and post‐type LTI carbon and aluminum oxide dental implants. Impla

## Abstract The aim of this study was to evaluate the influence of the straight alignment versus distal offset placement of an implant‐supported prosthesis (using implants with different diameters: 4 mm, 4.5 mm, and 5 mm) on bone stress distribution. 3D finite element models of a straight configura

## Abstract A theory is proposed stating that an ideal implant material must have a dynamic surface chemistry that induces histological changes at the implant interface which would normally occur if the implant were not present. Evidence for the validity of this theory is provided with a series of

Mechanical evaluation of implants harvested following surgical implantation is often performed as part of the screening process for new materials or surface textures. The question of randomization with respect to implant placement often arises when attempting to design a study to evaluate several im