Abstract
The cochlear implant (CI), an advanced electronic device replacing the entire cochlear function, is the ultimate treatment for over 466 million people with disabling hearing loss. Infection after cochlear implantation is a common and worrisome complication despite the routine administration of the antibiotic. The bacterial biofilms formed on the surface of CI are the main cause of antibiotic failure. To solve this problem, we developed a copper-containing zwitterionic coating consisting of anti-adherent poly sulfobetaine methacrylate (PSB) and steadfast polydopamine (PDA). CuSO(4)/H(2)O(2.) was added to accelerate this co-deposition reaction and enhance the anti-bacterial property. The preparation method was simple, rapid, and suitable for clinical use. In our in vitro and in vivo studies, the PSB/PDA(Cu) coating showed high biocompatibility, and conferred CI implants excellent anti-inflammatory, strong anti-bacterial effects, and great anti-biofilm properties to representative Gram-positive and Gram-negative bacteria. These findings implied that the PSB/PDA(Cu) coating was a unique anti-bacterial strategy for enhancing CI performance.