Lysine and ?-Aminoisobutyric Acid Conjugated Bioinspired Polydopamine Surfaces for the Enhanced Antibacterial Performance of the Foley Catheter

Abstract

Microbial adhesion onto implanted devices was reduced by the immobilization of amino acid lysine and ?-aminoisobutyric acid to polydopamine functionalized PET films and Foley catheters. The polydopamine functionalized film was prepared by a dip coating method followed by incorporation of biocompatible amino acids to prepared films. The purpose of development of the modified pDA film is to improve the anti-biofouling and antibacterial activity of the film which can be successfully applied for medical devices. The characterization of modification was done using different techniques such as contact angle measurement, ATR-FTIR, FE-SEM, AFM, and XPS analysis. ATR-FTIR spectroscopy and XPS confirmed the successful amino modification of film. The anti-biofouling and antimicrobial behavior of the prepared surfaces were evaluated using the bacterial attachment and death assay. The resulting coatings repelled bacterial cell attachment and killed clinically applicable Gram-negative and Gram-positive strains. The developed coatings were applied to the Foley catheters to study the antibacterial activity by the log reduction method. The results demonstrate that tested amino acid-modified film increases the antibacterial activity of the catheters and can significantly help in reduction of nosocomial infections.