posted on 2022-06-29, 00:03authored byÍris Soares, Jaime Faria, Ana Marques, Isabel A. C. Ribeiro, Carlos Baleizão, Ana Bettencourt, Isabel M. M. Ferreira, Ana Catarina Baptista
Implant-related infections,
mainly caused by Staphylococcus
aureus, are a major health concern. Treatment is challenging
due to multi-resistant strains and the ability of S.
aureus to adhere and form biofilms on bone and implant
surfaces. The present work involved the preparation and evaluation
of a novel dual polymeric film coating on stainless steel. Chitosan
and polycaprolactone (PCL) multilayers, loaded with poly(methyl methacrylate)
(PMMA) microspheres encapsulating vancomycin or daptomycin, produced
by the dip-coating technique, allowed local antibiotic-controlled
delivery for the treatment of implant-related infections. Enhanced
adhesion of the film to the metal substrate surface was achieved by
mechanical abrasion of its surface. Studies have shown that for both
drugs the release occurs by diffusion, but the release profile depends
on the type of drug (daptomycin or vancomycin), the pH of the solution,
and whether the drug is freestanding (directly incorporated into the
films) or encapsulated in PMMA microspheres. Daptomycin freestanding
films reached 90% release after 1 day at pH 7.4 and 4 days at pH 5.5.
In comparison, films with daptomycin encapsulated microspheres reached
90% release after 2 h at pH 5.5 and 2 days at pH 7.4. Vancomycin encapsulated
and freestanding films showed a similar behavior reaching 90% release
after 20 h of release at pH 5.5 and 2 and 3 days, respectively, at
pH 7.4. Furthermore, daptomycin-loaded films showed activity (assessed
by agar diffusion assays) against sensitive (ATCC 25923) and clinically
isolated (MRSA) S. aureus strains.