Spherical calcium phosphate (Ca-P) granules show advantages in filling bone cavity defects. In this study, gelatinizing technology combined with microspheresintering and gas-foaming methods was applied to fabricate porous spherical Ca-P bioceramic granules. The obtained three kinds of Ca-P granules (i.e., hydroxyapatite, HAG; biphasic calcium phosphate, BCP-G; and tricalcium phosphate, TCP-G) exhibited uniformly spherical shapes and interconnected pore structures with controlled macropores (about 600 mu m), and abundant minor-(10-100 mu m) to microsized (<10 mu m) pores. The obtained Ca-P granules contained only the HA and beta-TCP phases, but their phase ratios (HA/beta-TCP) had some changes in the sintering process. All of the Ca-P granules were favorable for serum protein adsorption and bonelike apatite formation, and TCP-G was superior to the other two. Cell-culturing results showed that these Ca-P granules could promote cell adhesion, proliferation, and expression of a series of osteogenic genes. These findings demonstrated that these Ca-P granules had good bioactivity and pro-osteogenic ability, especially for BCP-G and TCP-G. Therefore, the porous spherical Ca-P bioceramic granules fabricated by the novel method show great potential to serve as good candidates for bone defect filling materials.

• 出版日期2017-8
• 单位四川大学