Surface Enrichment Of Biomimetic Apatites With Biologically-active Ions Mg~(2+) And Sr~(2+): A Preamble To The Activation Of Bone Repair Materials

摘要

The surface activation of calcium phosphate-based biomaterials for bone repair is an emerging route for improving bone regeneration processes. One way for such activation is through the exchange of surface calcium ions with biologically-active cations such as Mg~(2+) or Sr~(2+). In this work, the interactions of non-carbonated and carbonated nanocrystalline apatites with Mg~(2+) and Sr~(2+) were investigated by means of ion exchange experiments in solution. Langmuir-type isotherms were determined. For both Sr and Mg, a greater uptake was observed on the carbonated sample, and on both types of apatites the maximum strontium uptake was greater than that of magnesium. Inverse exchanges showed that the proportion of reversibly fixed ions after surface exchange was close to 85% for Mg and 75-80% for Sr. The results are related to the presence of a surface hydrated layer on the nanocrystals and possible exchange mechanisms are discussed. Our results favor the hypothesis of hetero-ionic surface exchanges (Mg~(2+)-Ca~(2+), Sr~(2+)-Ca~(2+)) within the hydrated layer, and some analogy with octacalcium phosphate (OCP) is considered. This work should prove helpful for the control and understanding of the activation of synthetic apatite-based powders or scaffolds with bioactive elements, as well as for the global understanding of biomineralization processes.