Assembly and antifungal effect of a new fluconazole-carrier nanosystem.

Taynara Mt de Lima Laís S Arias Letícia F Afanaci Raphael Fb Ferraresse Francisco N de S Neto Bruno Hr de Lima Fabiana G Straioto Emerson R de Camargo Juliano P Pessan Douglas R Monteiro

Future Microbiol

Graduate Program in Dentistry (GPD - Master's Degree), University of Western São Paulo (UNOESTE),19050-920 Presidente Prudente/São Paulo, Brazil.

Published: March 2020

To assemble, characterize and assess the antifungal effects of a new fluconazole (FLZ)-carrier nanosystem. The nanosystem was prepared by loading FLZ on chitosan (CS)-coated iron oxide nanoparticles (IONPs). Antifungal effects were evaluated on planktonic cells (by minimum inhibitory concentration determination) and on biofilms (by quantification of cultivable cells, total biomass, metabolism and extracellular matrix) of and . Characterization results ratified the formation of a nanosystem (<320 nm) with FLZ successfully embedded. IONPs-CS-FLZ nanosystem reduced minimum inhibitory concentration values and, in general, showed similar antibiofilm effects compared with FLZ alone. IONPs-CS-FLZ nanosystem was more effective than FLZ mainly in inhibiting planktonic cells. This nanocarrier has potential to fight fungal infections.

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http://dx.doi.org/10.2217/fmb-2019-0182	DOI Listing

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