Structural characterization of Sol-Gel derived Sr-substituted calcium phosphates with anti-osteoporotic and anti-inflammatory properties.
Résumé
Sol-Gel chemistry has been successfully used to prepare un-doped and Sr-doped calcium phosphate ceramics exhibiting a porous structure. The samples composition is very close to the nominal one. All samples present phase mixtures mainly Hydroxyapatite (HAp) and Tri Calcium Phosphate (Β-TCP). Doping with Sr2+ ions has a clear effect on the proportions of the different phases, increasing the amount of Β-TCP. An amorphous phase is also observed incorporating some 40 % of the total amount of strontium. Strontium ions also substitute for calcium both in HAp and Β-TCP in specific sites that have been determined from Rietveld refinement on synchrotron powder diffraction data. The soluble amorphous and TCP phases are responsible for a beneficial partial release of strontium ions in solution during interactions between the material and biological fluids. Preliminary in vitro study demonstrates anti-inflammatory effect of strontium for human monocytes cultured in contact with calcium phosphates.
Domaines
MatériauxOrigine | Fichiers produits par l'(les) auteur(s) |
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