Transformation from calcium sulfate to calcium phosphate in biological environment.

The formation of a nano-apatite surface layer is frequently considered a measure of bioactivity, especially for non-phosphate bioceramics. In the present study, strontium-doped calcium sulfate, (Ca,Sr)SO, was used to verify the feasibility of this measure. The (Ca,Sr)SO specimen was prepared by mixing 10% SrSO by weight with 90% CaSO·½HO powder by weight. A solid solution of (Ca,7.6%Sr)SO was then produced by heating the powder mixture at 1100 °C for 1 h. The resulting (Ca,Sr)SO specimen was readily degradable in phosphate solution. A newly formed surface layer in the form of flakes was formed within one day of specimen immersion in phosphate solution. Structural and microstructure-compositional analyses indicated that the flakes were composed of octacalcium phosphate (OCP) crystals. An amorphous interface containing OCP nanocrystals was found between the newly formed surface layer and the remaining (Ca,Sr)SO specimen. The specimen was also implanted into a rat distal femur bone defect. In addition to new bone, fibrous tissue and inflammatory cells were found to interlace the (Ca,Sr)SO specimen. The present study indicated that a more comprehensive evaluation is needed to assess the bioactivity of non-phosphate bioceramics. The newly formed surface layer on the (Ca,Sr)SO specimen after soaking in phosphate solution for 28 days.