A. Michalicha et al. Polycatecholamine and gentamicin as modifiers for antibacterial and blood-biocompatible polyester vascular prostheses. Materials Science and Engineering: C

A. Michalicha. A. Espona-Noguera, C. Canal, B. Budzyńska, M. Pięt, S. Przywara, J. Pawelec, A. Belcarz. Polycatecholamine and gentamicin as modifiers for antibacterial and blood-biocompatible polyester vascular prostheses. Materials Science and Engineering: C. 2022, 112645.

doi: doi.org/10.1016/j.msec.2022.112645

Abstract

Polyester (PET) prostheses are commonly used in reconstructive vascular surgery. The most serious complication after implantation is early or late infection of the graft. Therefore, there is high demand to protect prosthesis against bacterial adhesion and biofilm development. For this reason, in this work PET prostheses were first coated by highly adhesive polycatecholamine layer. The grafts were then coupled with gentamicin and studied in relation to morphological and structural properties, biological safety (contact with blood, reaction of vascular endothelial cells (HUVEC), Danio rerio fish), drug release and antibacterial activity. Among two tested catecholamine monomers, L-DOPA was found to be more effective precursor in this process than dopamine. For L-DOPA, assistance of Cu2+, Mg2+ and Na+ ions seems to increase the amount of further immobilized drug. Coated prostheses exhibited greater human endothelial cell proliferation increase and lower cytotoxic effect than uncoated. The modification reduced the hemolysis observed for pristine commercial graft and limited the rate of abnormalities in D. rerio larvae, confirming the safety of the proposed modification. The coating allowed to double the amount of immobilized antibiotic in comparison with uncoated graft which resulted in increased antibacterial activity and reduced bacterial adhesion against 4 bacterial strains prevalent in biomaterials infections. Overall, poly(L-DOPA)-coatings deposited on PET vascular grafts can effectively functionalize these prostheses for higher safety in biomedical applications.