Biodegradation of HA and β-TCP Ceramics Regulated by T-Cells.
Zifan ZhaoJing ZhangZaibo YangQin ZhaoPublished in: Pharmaceutics (2022)
Biodegradability is one of the most important properties of implantable bone biomaterials, which is directly related to material bioactivity and the osteogenic effect. How foreign body giant cells (FBGC) involved in the biodegradation of bone biomaterials are regulated by the immune system is poorly understood. Hence, this study found that β-tricalcium phosphate (β-TCP) induced more FBGCs formation in the microenvironment ( p = 0.0061) accompanied by more TNFα ( p = 0.0014), IFNγ ( p = 0.0024), and T-cells ( p = 0.0029) than hydroxyapatite (HA), resulting in better biodegradability. The final use of T-cell depletion in mice confirmed that T-cell-mediated immune responses play a decisive role in the formation of FBGCs and promote bioceramic biodegradation. This study reveals the biological mechanism of in vivo biodegradation of implantable bone tissue engineering materials from the perspective of material-immune system interaction, which complements the mechanism of T-cells' adaptive immunity in bone immune regulation and can be used as a theoretical basis for rational optimization of implantable material properties.