Biofilm formation by microorganisms is a serious clinical problem that leads to drug failure. Nanocarriers (NCs) have shown good potential for controlling drug-resistant biofilms, although the effective penetration and retention of NCs in biofilms is still a big task. The issue was overcome by selecting alizarin as a natural antibiofilm agent, but its low water solubility restricts its further use. Thus, in present study, chitosan-gum arabic-coated liposomes-alizarin nanocarriers (CGL-Alz NCs) were synthesized using an ionotropic gelation method to improve drug release and penetration of alizarin inside biofilm cells. CGL-Alz NCs acted against biofilms caused by Candida albicans or Staphylococcus aureus and improved penetration of alizarin inside biofilms exerting long-term antibiofilm effects caused by sustained release of alizarin from NCs. Furthermore, significant biofilm and hyphae reduction was observed at a 5 μg/mL concentration of NCs. This research work opens a new avenue of an innovative strategy to treat biofilm-associated multispecies infections.
Keywords: Alizarin; Antibiofilm activity; C. albicans and S. aureus; Chitosan-gum arabic nanocarriers; Drug-releasing kinetics; Multispecies biofilms.
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