The addition of osteoimmunology drugs to bone repair materials is beneficial to bone regeneration by regulating the local immune microenvironment. Fingolimod (FTY720) has been reported to be an osteoimmunology drug that promotes osteogenesis. However, there is no ideal biomaterial for the sustained release of FTY720 in the bone defect areas. In the present work, FTY720 loaded mesoporous bioactive glass (FTY720@MBGs) was successfully prepared based on the mesoporous properties of MBGs and electrostatic attraction. FTY720 achieved a sustained release for 7 days. Thein vitrostudy found that FTY720@MBGs could synergistically promote osteogenesis and inhibit osteoclastogenesis due to their ability to promote macrophages toward the M2 phenotype. Thein vivostudy confirmed that FTY720@MBGs could significantly improve bone regeneration. This study provides new strategies for designing smart cell-instructive biomaterials that can play a role in all bone healing processes from early inflammation to bone reconstruction.

• 单位
  广州医学院; 南方医科大学