Ion beam sensitizing of titanium surfaces to hydroxyapatite formation

CaO and P2O5-containing Ti surfaces were prepared and examined for their bi oactivity. The preparation involved the incorporation of Ca and P into Ti b y ion implantation to a total dose of up to 8 x 10(17) ions/cm(2) with a 1. 7 Ca/P ratio and a subsequent oxidation at 500 degrees C in O-2 for 30 min. The model surfaces were examined for their reactivity toward hydroxyapatit e formation by microscopically recording the mineralization in a simulated body fluid. The ion implantation-modified surfaces were shown to exhibit en hanced mineralization by inducing heterogeneous nucleation, growth, and pro liferation of hydroxyapatite, relative to a control sample of pure Ti. The surface-induced reactivity was shown to relate to the enhanced provision of the ionic mineral components Ca2+ and HPO42- directly supplied from the su rface and the substrate-mediated nucleation by the hydroxylated surface of TiO2. (C) 2000 Elsevier Science S.A. All rights reserved.