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1.
Sci Rep ; 7(1): 11870, 2017 09 19.
Article in English | MEDLINE | ID: mdl-28928400

ABSTRACT

Surface colonization by microorganisms leads to the formation of biofilms, i.e. aggregates of bacteria embedded within a matrix of extracellular polymeric substance. This promotes adhesion to the surface and protects bacterial community, providing an antimicrobial-resistant environment. The inhibition of biofilm growth is a crucial issue for preventing bacterial infections. Inorganic nanoparticle/Teflon-like (CFx) composites deposited via ion beam sputtering demonstrated very efficient antimicrobial activity. In this study, we developed Ag-CFx thin films with tuneable metal loadings and exceptional in-plane morphological and chemical homogeneity. Ag-CFx antimicrobial activity was studied via mid-infrared attenuated total reflection spectroscopy utilizing specifically adapted multi-reflection waveguides. Biofilm was sampled by carefully depositing the Ag-CFx film on IR inactive regions of the waveguide. Real-time infrared spectroscopy was used to monitor Pseudomonas fluorescens biofilm growth inhibition induced by the bioactive silver ions released from the nanoantimicrobial coating. Few hours of Ag-CFx action were sufficient to affect significantly biofilm growth. These findings were corroborated by atomic force microscopy (AFM) studies on living bacteria exposed to the same nanoantimicrobial. Morphological analyses showed a severe bacterial stress, leading to membrane leakage/collapse or to extended cell lysis as a function of incubation time.


Subject(s)
Anti-Bacterial Agents , Biofilms/drug effects , Metal Nanoparticles/chemistry , Polytetrafluoroethylene , Pseudomonas fluorescens/physiology , Silver , Anti-Bacterial Agents/chemistry , Anti-Bacterial Agents/pharmacology , Bacterial Adhesion/drug effects , Polytetrafluoroethylene/chemistry , Polytetrafluoroethylene/pharmacology , Silver/chemistry , Silver/pharmacology , Spectroscopy, Fourier Transform Infrared
2.
Article in English | MEDLINE | ID: mdl-25953533

ABSTRACT

Silver nanophases are increasingly used as effective antibacterial agent for biomedical applications and wound healing. This work aims to investigate the surface chemical composition and biological properties of silver nanoparticle-modified flax substrates. Silver coatings were deposited on textiles through the in situ photo-reduction of a silver solution, by means of a large-scale apparatus. The silver-coated materials were characterized through X-ray Photoelectron Spectroscopy (XPS), to assess the surface elemental composition of the coatings, and the chemical speciation of both the substrate and the antibacterial nanophases. A detailed investigation of XPS high resolution regions outlined that silver is mainly present on nanophases' surface as Ag2O. Scanning electron microscopy and energy dispersive X-ray spectroscopy were also carried out, in order to visualize the distribution of silver particles on the fibers. The materials were also characterized from a biological point of view in terms of antibacterial capability and cytotoxicity. Agar diffusion tests and bacterial enumeration tests were performed on Gram positive and Gram negative bacteria, namely Staphylococcus aureus and Escherichia coli. In vitro cytotoxicity tests were performed through the extract method on murine fibroblasts in order to verify if the presence of the silver coating affected the cellular viability and proliferation. Durability of the coating was also assessed, thus confirming the successful scaling up of the process, which will be therefore available for large-scale production.


Subject(s)
Anti-Bacterial Agents/pharmacology , Silver/chemistry , Animals , Anti-Bacterial Agents/adverse effects , Cell Survival/drug effects , Cells, Cultured , Escherichia coli/drug effects , Metal Nanoparticles/adverse effects , Mice , Photoelectron Spectroscopy , Staphylococcus aureus/drug effects
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