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Authors Hassan, G. ; Forsman, N. ; Wan, X. ; Keurulainen, L. ; Bimbo, L. M. ; Stehl, S. ; van Charante, F. ; Chrubasik, M. ; Prakash, A. ; Johansson, L.-S. ; Mullen, D.C. ; Johnston, B. F. ; Zimmermann, R. ; Werner, C. ; Yli-Kauhaluoma, J. ; Coenye, T. ; Saris, P
Title Non-leaching, highly biocompatible nanocellulose surfaces that efficiently resist fouling by bacteria in an artificial dermis model
Date 06.08.2020
Number 58268
Abstract Bacterial biofilm infections incur massive costs on healthcare systems worldwide. Particularly worrisome are the infections associated with pressure ulcers and prosthetic, plastic, and reconstructive surgeries, where staphylococci are the major biofilm-forming pathogens. Non-leaching antimicrobial surfaces offer great promise for the design of bioactive coatings to be used in medical devices. However, the vast majority are cationic, which brings about undesirable toxicity. To circumvent this issue, we have developed antimicrobial nanocellulose films by direct functionalization of the surface with dehydroabietic acid derivatives. Our conceptually unique design generates non-leaching anionic surfaces that reduce the number of viable staphylococci in suspension, including drug-resistant Staphylococcus aureus, by an impressive 4–5 log units, upon contact. Moreover, the films clearly prevent bacterial colonization of the surface in a model mimicking the physiological environment in chronic wounds. Their activity is not hampered by high protein content, and they nurture fibroblast growth at the surface without causing significant hemolysis. In this work, we have generated nanocellulose films with indisputable antimicrobial activity demonstrated using state-of-the-art models that best depict an “in vivo scenario”. Our approach is to use fully renewable polymers and find suitable alternatives to silver and cationic antimicrobials.
Publisher ACS Applied Bio Materials
Wikidata
Citation ACS Applied Bio Materials 3 (2020) 4095-4108
DOI https://doi.org/10.1021/ACSABM.0C00203
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