In order to improve the resistance of catheters to microbial infections (particularly Staphylococci), a cephalosporin type antibiotic (cefamandole, CEF), and a glycopeptidic antibiotic (vancomycin), were adsorbed onto functionalized polyurethane films. The polymers were characterized by chemical, FT-IR and 1NMR analysis. The amounts of antibiotic adsorbed were higher than the ones reported in the literature. The kinetics of release, under standard conditions, was evaluated by in vitro tests; both the adsorption yield and the antibiotic release from the polymer surface depended on the type of the surface-antibiotic interactions. In particular, matrix hydrophilicity, formation of strong ionic bonds, existence of spacing arms between antibiotic and matrix bonding site play a role. The antimicrobial activity of the treated films was evaluated by optical microscopy and the Kirby-Bauer test. When exhausted polymer films, previously treated with CEF were submitted to a second adsorption, a superior antibacterial activity was observed.
Antibiotic releasing urethane polymers for prevention of catheter related infections / Marconi, Valter; Francolini, Iolanda; Piozzi, Antonella; DI ROSA, Roberta. - In: JOURNAL OF BIOACTIVE AND COMPATIBLE POLYMERS. - ISSN 0883-9115. - STAMPA. - 16 (5):(2001), pp. 393-407. [10.1106/G5EB-LL73-K59A-7YBF]
Antibiotic releasing urethane polymers for prevention of catheter related infections
MARCONI, Valter;FRANCOLINI, IOLANDA;PIOZZI, Antonella;DI ROSA, Roberta
2001
Abstract
In order to improve the resistance of catheters to microbial infections (particularly Staphylococci), a cephalosporin type antibiotic (cefamandole, CEF), and a glycopeptidic antibiotic (vancomycin), were adsorbed onto functionalized polyurethane films. The polymers were characterized by chemical, FT-IR and 1NMR analysis. The amounts of antibiotic adsorbed were higher than the ones reported in the literature. The kinetics of release, under standard conditions, was evaluated by in vitro tests; both the adsorption yield and the antibiotic release from the polymer surface depended on the type of the surface-antibiotic interactions. In particular, matrix hydrophilicity, formation of strong ionic bonds, existence of spacing arms between antibiotic and matrix bonding site play a role. The antimicrobial activity of the treated films was evaluated by optical microscopy and the Kirby-Bauer test. When exhausted polymer films, previously treated with CEF were submitted to a second adsorption, a superior antibacterial activity was observed.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
