In recent years, microbial colonization on the surface of biomedical implants/devices has become a severe threat to human health. Herein, surface immobilized guanidine derivative block copolymers create an antimicrobial and antifouling dual-functional coating. We report the preparation of an antimicrobial and antifouling block copolymer by the conjugation of polyhexanide (PHMB) with either ally glycidyl ether or allyloxy polyethylene glycol (APEG; MW 1200 and 2400): The allyl glycidyl ether modified PHMB (A-PHMB) and allyloxy polyethylene glycol(1200/2400) modified PHMB (APEG(1200/2400)-PHMB) copolymers were grafted onto a silicone rubber surface as a bottlebrush-like coating, respectively, using a plasma-UV-assisted surface-initiated polymerization. Both A-PHMB and APEG(1200/2400)-PHMB coatings exhibited excellent broad-spectrum antimicrobial properties against Gram-negative/positive bacteria and fungi. The APEG(2400)-PHMB coating displayed an improved antibiofilrn as well as antifouling properties and a long reusable cycle, compared with two other coatings, due to its abundant PEG blocks among those copolymers. Also, the APEG(2400)-PHMB-coated silicone coupons were biocompatible toward mammalian cells, as revealed by in vitro hemocompatibile and cytotoxic assays. An in vivo study showed a significant decline of Escherichia coli colonies with a 5-log reduction, indicating the APEG(2400)-PHMB coating surface worked effectively in the rodent subcutaneous infection model. This PHMB-based block copolymer coating is believed to be an effective strategy to prevent biomaterial-associated infections.

• 出版日期2017-3-29
• 单位南京工业大学; 西安交通大学