Essential Oil Blends or Their Component Blends as Antimicrobial Compounds of Polysaccharide Coatings on Metallic Biomaterials
Tomasz Cudak, Mikołaj Mielczarek, Aleksandra Fiołek, Jakub Marchewka, Maciej Sitarz, Kamil Drożdż, Katarzyna Biegun-Drożdż, Tomasz Gosiewski, Monika Brzychczy-Włoch, Tomasz Moskalewicz

TL;DR
This study explores how essential oils and their compounds can be embedded in polysaccharide coatings on metal surfaces to create antibacterial materials, finding that alginate coatings are highly effective against bacteria but also more toxic to cells.
Contribution
The work introduces a novel approach to developing antibacterial surfaces using essential oil compounds in combination with polysaccharide matrices, highlighting differences in performance and compatibility based on the matrix used.
Findings
Alginate-based coatings showed high antibacterial activity against S. aureus but also increased cytotoxicity.
Chitosan-based coatings provided better cytocompatibility while maintaining antibacterial properties.
The structure and distribution of additives in the coatings significantly influenced their performance.
Abstract
What are the main findings? influence of polysaccharide matrix and substrate on EPD process and coatings properties;alginate coatings showed superior antibacterial and anti-biofilm activity;alginate and chitosan coatings differed in droplet size and additive distribution;interactions between oils, active compounds, and polymer matrices were observed;alginate-based coatings showed high activity against S. aureus, but also cytotoxicity. influence of polysaccharide matrix and substrate on EPD process and coatings properties; alginate coatings showed superior antibacterial and anti-biofilm activity; alginate and chitosan coatings differed in droplet size and additive distribution; interactions between oils, active compounds, and polymer matrices were observed; alginate-based coatings showed high activity against S. aureus, but also cytotoxicity. What are the implications of the main…
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Taxonomy
TopicsElectrophoretic Deposition in Materials Science · Nanocomposite Films for Food Packaging · Polymer Surface Interaction Studies
