摘要
Citrate based polymer poly(octamethylene citrate)(POC)has shown promise when formulated into composite material containing up to 65 wt%hydroxylapatite(HA)for orthopedic applications.Despite significant research into POC,insufficient information about the biocompatibility of the monomers 1,8-Octanediol and Citrate used in its synthesis is available.Herein,we investigated the acute cytotoxicity,immune response,and long-term functionality of both monomers.Our results showed a cell-type dependent cytotoxicity of the two monomers:1,8-Octanediol induced less acute toxicity to 3T3 fibroblasts than Citrate while presenting comparable cytotoxicity to MG63 osteoblast-like cells;however,Citrate demonstrated enhanced compatibility with hMSCs compared to 1,8-Octanediol.The critical cytotoxic concentration values EC30 and EC50,standard for comparing cytotoxicity of chemicals,were also provided.Additionally,Citrate showed slower and less inhibitory effects on long-term hMSC cell proliferation compared with 1,8-Octanediol.Furthermore,osteogenic differentiation of hMSCs exposure to Citrate resulted in less inhibitory effect on alkaline phosphatase(ALP)production.Neither monomer triggered undesired pro-inflammatory responses.In combination with diffusion model analysis of monomer release from cylindrical implants,based on which the maximum concentration of monomers in contact with bone tissue was estimated to be 2.2�10�4 mmol/L,far lower than the critical cytotoxic concentrations as well as the 1,8-Octanediol concentration(0.4 mg/mL or 2.7 mmol/L)affecting hMSCs differentiation,we provide strong evidence for the cytocompatibility of the two monomers degraded from citrate-based composites in the orthopedic setting.
