The influence of various titanium surfaces on the interface shear strength between implants and bone

Titanium cylinders having a sandblasted surface were implanted in holes drilled in the internal condyles of rabbit femurs. The right side received a titanium implant coated with xenogeneic bone particles and the left side received a titanium cylinder alone and was used as control. The femoral extrem

## Abstract The present study investigated the effects of surface chemistry and topography on the strength and rate of osseointegration of titanium implants in bone. Three groups of implants were compared: (1) machine‐turned implants (turned implants), (2) machine‐turned and aluminum oxide‐blasted

## Abstract Roughened titanium (Ti) surfaces have been widely used for dental implants. In recent years, there has been the tendency to replace Ti plasma‐sprayed surfaces by sandblasted and acid‐etched surfaces in order to enhance osseous apposition. Another approach has been the utilization of hyd

## Abstract The aim of this numerical analysis was to evaluate the amount and localization of stress that occurs with various materials used in implant‐crown design under functional forces. Computer‐aided design techniques and a finite‐element stress analysis method were used for evaluation. A 4.1

Several factors contribute to the success of stable bony ingrowth into the porous coated surfaces of orthopaedic implants used in hip arthroplasty. Despite having good bony apposition, bony ingrowth might not occur if the relative motion between bone and implant is large. Therefore, determining the