Silver Nanowire-Coated Porous Alginate Films for Wound Dressing Applications: Antibacterial Activity, Cell Proliferation, and Physical Characterization

Erişim
info:eu-repo/semantics/closedAccessTarih
2024Yazar
Kahya, NilayKartun, Aslin
Korkut, Işık Neslişah
Usta, Canan
Kuruca, Dürdane Serap
Gürarslan, Alper
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Kahya, N., Kartun, A., Korkut, I. N., Usta, C., Kuruca, D. S., & Gürarslan, A. (2024). Silver Nanowire-Coated Porous alginate films for wound dressing applications: antibacterial activity, cell proliferation, and physical characterization. ACS Omega, 9(50), 49032–49042. https://doi.org/10.1021/acsomega.4c02467Özet
In the present study, porous calcium alginate films have been developed by the addition of 0.02, 0.1, and 0.5% (w/v) PVA to sodium alginate film solutionss. Poly(vinyl) alcohol played the role of a pore-forming agent for calcium alginate films, and the controlled pore sizes of the films were investigated by scanning electron microscopy and Fourier transform infrared spectroscopy analyses. Human fibroblast cell attachment was performed on the porous calcium alginate films (0.5-Ca-Alg), and then the film was coated with 1 and 3 wt % silver nanowires. Cell proliferation was enhanced on films after the coating of the silver nanowires. The MTT assay was performed on the calcium alginate films and silver nanowire-coated films, and the films were found to be nontoxic to human foreskin fibroblast cells at the end of 72 h of exposure. The existence of silver nanowires on the porous calcium alginate film endowed the material with good antibacterial activity. The swelling ability of the porous and silver nanowire-coated film (0.5-Ca-Alg-1/AgNW) increased by similar to 64% in simulated body fluid (pH = 7.4) and distilled water compared to a nonporous film (Ca-Alg). The water vapor transmission rate of Ca-Alg was similar to 45% enhanced thanks to the porosity of films and the existence of AgNW. Hereby, it is demonstrated that the novel silver nanowire-doped porous alginate materials would be potential wound dressing agents with desired physical properties, antibacterial activity, and availability to cell proliferation.