Titanium dioxide nanotubes enhance bone bonding in vivo

## Abstract Hydroxyapatite (HAp) coatings are applied to orthopedic and dental implants made of titanium (Ti) and its alloys in order to increase their bioactivities and to offset the mechanical weakness of HAp. We examined the __in vivo__ effects of electrical polarization on the bone bonding of H

## Abstract Oxysterols, naturally occurring cholesterol oxidation products, can induce osteoblast differentiation. Here, we investigated short‐term 22(S)‐hydroxycholesterol + 20(S)‐hydroxycholesterol (SS) exposure on osteoblastic differentiation of marrow stromal cells. We further explored oxystero

## Abstract Early bone ongrowth secures long‐term fixation of primary implants inserted without cement. Implant surfaces roughened with a texture on the micrometer scale are known to be osseoconductive. The aim of this study was to evaluate the bone formation at the surface of acid etched implants

The purpose of this study is to evaluate the bone-bonding ability of alkali-and heat-treated titanium alloys. Smoothed-surface rectangular plates of Ti6Al4V, Ti6Al2Nb1Ta, and Ti15Mo5Zr3Al were prepared. The plates were inserted transcortically into the proximal metaphyses of bilateral rabbit tibiae,

## Abstract Implant failure has been attributed to loosening of an implant from the host bone possibly due to poor osseointegration. One promising strategy for improving osseointegration is to develop a functional implant surface that promotes osteoblast differentiation. In this study, a titanium (

## Abstract RGD (Arg‐Gly‐Asp) coating has been suggested to enhance implant fixation by facilitating the adhesion of osteogenic cells to implant surfaces. Orthopedic implants are unavoidably surrounded partly by gaps, and these regions represent a challenging environment for osseointegration. We ex