Histological and biochemical evaluation of osteogenic response in porous hydroxyapatite coated alumina ceramics

## Abstract Bioactive materials such as hydroxyapatite ceramics (HA) are known to show a stable interfacial bond with tissues (the bone bonding property has been especially well documented). However, the biological phenomenon on the material surface that evoke bone bonding is not well documented. T

## Abstract A canine study was performed to make a histological and biomechanical evaluation of the interface between bone and two different bioceramic implants. A newly developed glass‐ceramic formed by P~2~O~5~, CaO, SiO~2~, and Al~2~O~3~, giving a crystal phase composed of CaP~2~O~6~AlPO~4~SiP

This paper evaluates the behavior of hydroxyapatite (HAP) coated and noncoated Ti6Al4V implants in dog tibia after 3 and 5 months implantation. HPA-coated implants were obtained by plasma spraying. XRD, SEM, and EPMA were employed to estimate the coating characteristics and their behavior in vivo. I

## Abstract Ti (PG60) and Ti plus HA (HPG60) dense coatings with ultrahigh roughness (Ra: 74 ± 8 μm and 53 ± 18 μm, respectively) were compared to high Ti (Ti60) and Ti plus HA (HT60) high roughened porous coatings (Ra: 40 ± 7 μm and 36 ± 3 μm, respectively). Surfaces were implanted in cortical and