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Deposition of substituted apatites onto titanium surfaces using a novel blasting process

✍ Scribed by L. O'Neill; C. O'Sullivan; P. O'Hare; L. Sexton; F. Keady; J. O'Donoghue

Book ID
104094616
Publisher
Elsevier Science
Year
2009
Tongue
English
Weight
527 KB
Volume
204
Category
Article
ISSN
0257-8972

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✦ Synopsis

A novel coating technique has been developed to modify the surface of metallic substrates. By simultaneously blasting the surface with an abrasive and a dopant, it is possible to impregnate the dopant into the surface. In this study, the surface of a titanium alloy has been impregnated with either hydroxyapatite or a variety of substituted (magnesium, carbonate or fluoro) apatites. EDX and XPS analysis clearly reveal high levels of dopant inclusion in the surface to a depth of less than 10 μm. A combination of XRD and ion elution measurements suggest that highly crystalline precursors are not degraded by the process and dissolution of materials with low crystallinity proceeds at a significantly higher rate than that of the crystalline hydroxyapatite. The biocompatibility of these surfaces has been investigated using an in vitro osteoblast proliferation study and the carbonate doped material was found to induce the highest level of cell proliferation.

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Deposition of substituted apatites with
Deposition of substituted apatites with anticolonizing properties onto titanium surfaces using a novel blasting process
✍ C. O'Sullivan; P. O'Hare; N. D. O'Leary; A. M. Crean; K. Ryan; A. D. W. Dobson; 📂 Article 📅 2010 🏛 John Wiley and Sons 🌐 English ⚖ 304 KB

## Abstract A series of doped apatites have been deposited onto titanium (V) substrates using a novel ambient temperature blasting process. The potential of these deposited doped apatites as non‐colonizing osteoconductive coatings has been evaluated __in vitro__. XPS, EDX, and gravimetric analysis