Hydroxyethyl chitosan (HECTS) is one of the most important water soluble derivatives of chitosan. In this study, photo-sensitive azidehydroxyethyl chitosan (AZ-HECTS) was synthesized with grafting degree 3.4%, and its water solution resulted in an insoluble hydrogel by 254nm UV irradiation for 90s. AZ-HECTS hydrogels, with water absorption 86.21%, had little impact on growth of mouse fibroblast (L929) and presented good cell biocompatibility. Obvious sudden degradation stage, slow degradation stage and no apparent toxicity was observed after AZ-HECTS hydrogels implanted into rats, and tissue inflammation was slighter, which indicated favorable biological safety. Furthermore, AZ-HECTS hydrogels was loaded with heparin, and released 50% of heparin accumulated 14d. AZ-HECTS-heparin hydrogels showed inhibitory effects on L929, and pro-growth functions within vascular endothelial cells seeded on the hydrogels, meanwhile a positive influence on vascular endothelial growth factor expression. In conclusion, AZ-HECTS hydrogels possessed favorable biocompatibility and biodegradability and had good potential as drug carrier.
Keywords: Biocompatibility; Biodegradability; Chitosan; Hydrogel; Photo-sensitive.
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