Electrospun silver nanoparticles/curcumin-loaded nanohybrids for Photodynamic Therapy

•Electrospun nanofibers containing drugs with excellent properties for Photodynamic Therapy.•Manufacture of nanofibers with optimal mechanical properties for dermatological applications.•Nanofibers with sustained release of drugs.•AgNPs facilitate the release of the CUR into the aqueous medium.•AgNP...

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Veröffentlicht in:Applied materials today 2024-02, Vol.36, p.102073, Article 102073
Hauptverfasser: Braga, Thais Lazzarotto, de Souza Rossin, Ariane Regina, Fernandes, Juliana Aparecida, de Souza Bonfim de Mendonça, Patrícia, de Castro-Hoshino, Lidiane Vizioli, Baesso, Mauro Luciano, de Freitas, Camila Fabiano, Radovanovic, Eduardo, Caetano, Wilker
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Sprache:eng
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Zusammenfassung:•Electrospun nanofibers containing drugs with excellent properties for Photodynamic Therapy.•Manufacture of nanofibers with optimal mechanical properties for dermatological applications.•Nanofibers with sustained release of drugs.•AgNPs facilitate the release of the CUR into the aqueous medium.•AgNPs are effectiveness in aiding the ex vivo permeation of CUR into pig ears. Chronic wounds are considered a worldwide public health problem, affecting millions yearly. The application of nanofibers associated with drugs and photopharmaceuticals is a promising alternative to meet the clinical needs of sterilization and tissue repair. Thus, aiming at the development of a smart dressing to improve the treatment and healing of these wounds, in the present work, the production of nanofibers containing the mixture of polymers F-127 and PCL with silver nanoparticles (AgNPs) and curcumin (CUR) was proposed and successfully performed, through a design of a photoactive nanoscaffold. A careful study on the optimization of conductivity and viscosity parameters of complex electrospinning nanosuspensions was carried out to obtain homogeneous nanofibrous (NM) matrices with controlled size also incorporated with photodrugs. Several analysis techniques were employed such as Scanning and Transmission Electron Microscopy, indicating diameters of approximately 900 nm and providing images of the AgNPs formed and distributed along the nanofibers with diameters around 12 ± 4 nm. Micro-Raman demonstrates the presence of the SERS effect, also evidencing the interaction of photodrug CUR with AgNPs within the nanofibers. Thermogravimetric analyses indicate the samples’ thermal stability. In addition to the contact angle measurements, proved the hydrophilization of the nanofibers with angle zero, and mechanical properties indicate the elasticity suitable for topical application. Furthermore, swelling studies were performed in simulated wound fluid (FSF), which quantification of CUR incorporated in NM was performed. Subsequently, the in vitro drug release in FSF was also studied, as well as their release kinetics, to evaluate the release of CUR from the nanofiber and determine its first-order kinetics process. The experiment involving photoacoustic spectroscopy was also carried out, evaluating the permeation of drugs in human biomimetic skin system from pig ears, therefor corroborating the results obtained in the in vitro drug release studies, in which CUR delivery from the NM and assisted i
ISSN:2352-9407
2352-9415
DOI:10.1016/j.apmt.2024.102073