Fabrication of nanostructured hydroxyapatite and analysis of human osteoblastic cellular response

## Abstract Hydroxyapatite has been successfully deposited onto Fecralloy substrate (a metal alloy with 22% Cr, 4.8% Al) by electrophoretic deposition in an attempt to promote the adhesion between coating and substrate, consequently to extend the lifetime of implants. Fecralloy has the ability to g

## Abstract This study aimed to fabricate bulk nanostructured hydroxyapatite (HA) pellets with improved properties using spark plasma sintering (SPS) for orthopedic applications. Spray‐dried nanostructured HA (nSD‐HA) powders were consolidated using the rapid SPS processing. The SPS processed nSD‐H

## Abstract Hydroxyapatite/soluble calcium phosphate composites (HAp/SCaP) are novel HAp‐based materials with enhanced solubility that have been developed by annealing HAp in a vacuum. This study compared the effects of HAp and HAp/SCaP on osteoblast proliferation, differentiation, and mineralizati

In order to evaluate whether human osteoblastic cells differentiate normally on hydroxyapatite, we have compared the adhesion, proliferation, and differentiation of human trabecular (HT) osteoblastic cells on synthetic-dense hydroxyapatite and on standard plastic culture. We show here that initial H

## Abstract In this study, a novel tissue engineering scaffold material of electrospun silk fibroin/nano‐hydroxyapatite (nHA) biocomposite was prepared by means of an effective calcium and phosphate (Ca‐P) alternate soaking method. nHA was successfully produced on regenerated silk fibroin nanofiber