Multicomponent Antibiofilm Lipid Nanoparticles as Novel Platform to Ameliorate Resveratrol Properties: Preliminary Outcomes on Fibroblast Proliferation and Migration

The well-being of skin and mucous membranes is fundamental for the homeostasis of the body and thus it is imperative to treat any lesion quickly and correctly. In this view, polyphenols might assist and enhance a successful wound healing process by reducing the inflammatory cascade and the productio...

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Veröffentlicht in:	International journal of molecular sciences 2023-05, Vol.24 (9), p.8382
Hauptverfasser:	Angellotti, Giuseppe, Di Prima, Giulia, D'Agostino, Fabio, Peri, Emanuela, Tricoli, Maria Rita, Belfiore, Elena, Allegra, Mario, Cancemi, Patrizia, De Caro, Viviana
Format:	Artikel
Sprache:	eng
Schlagworte:	Antimicrobial agents Antioxidants Bioavailability Biocompatibility Biofilms Cell Proliferation Chemical properties Design Exudation Fibroblasts Free radicals Homeostasis Infections Inflammation Lipids Lipids - chemistry Lipophilic Liposomes - pharmacology Menthol Mixtures Nanoparticles Nanoparticles - chemistry Octanol Oral administration Particle Size Polyethylene glycol Polyphenols Ratios Resveratrol Resveratrol - pharmacology Scientific equipment and supplies industry Solids Sonication Well being Wound healing Zeta potential
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container_title	International journal of molecular sciences
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creator	Angellotti, Giuseppe Di Prima, Giulia D'Agostino, Fabio Peri, Emanuela Tricoli, Maria Rita Belfiore, Elena Allegra, Mario Cancemi, Patrizia De Caro, Viviana
description	The well-being of skin and mucous membranes is fundamental for the homeostasis of the body and thus it is imperative to treat any lesion quickly and correctly. In this view, polyphenols might assist and enhance a successful wound healing process by reducing the inflammatory cascade and the production of free radicals. However, they suffer from disadvantageous physico-chemical properties, leading to restricted clinical use. In this work, a complex mixture of PEGylated lipid, Glyceryl monoester, 18-β-Glycyrrhetinic Acid and Menthol was designed to entrap Resveratrol (RSV) as the active ingredient and further produce lipid nanoparticles (LNPs) by homogenization followed by high-frequency sonication. The nanosystem was properly characterized in terms of particle size (DLS, SEM), zeta potential, drug loading, antioxidant power (DPPH), release behaviour, cytocompatibility, wound healing and antibiofilm properties. The optimized lipid mixture was homogeneous, melted at 57-61 °C and encapsulated amorphous RSV (4.56 ± 0.04% w/w). The RSV-loaded LNPs were almost monodispersed (PDI: 0.267 ± 0.010), with nanometric size (162.86 ± 3.12 nm), scavenger properties and suitable DR% and LE% values (96.82 ± 1.34% and 95.17 ± 0.25%, respectively). The release studies were performed to simulate the wound conditions: 1-octanol to mimic the lipophilic domains of biological tissues (where the First Order kinetic was observed) and citrate buffer pH 5.5 according to the inflammatory wound exudate (where the Korsmeyer-Peppas kinetic was followed). The biological and microbiological evaluations highlighted fibroblast proliferation and migration effects as well as antibiofilm properties at extremely low doses (LNPs: 22 μg/mL, corresponding to RSV 5 µM). Thus, the proposed multicomponent LNPs could represent a valuable RSV delivery platform for wound healing purposes.
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subjects	Antimicrobial agents Antioxidants Bioavailability Biocompatibility Biofilms Cell Proliferation Chemical properties Design Exudation Fibroblasts Free radicals Homeostasis Infections Inflammation Lipids Lipids - chemistry Lipophilic Liposomes - pharmacology Menthol Mixtures Nanoparticles Nanoparticles - chemistry Octanol Oral administration Particle Size Polyethylene glycol Polyphenols Ratios Resveratrol Resveratrol - pharmacology Scientific equipment and supplies industry Solids Sonication Well being Wound healing Zeta potential
title	Multicomponent Antibiofilm Lipid Nanoparticles as Novel Platform to Ameliorate Resveratrol Properties: Preliminary Outcomes on Fibroblast Proliferation and Migration
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