Topical silver nanoparticles reduced with ethylcellulose enhance skin wound healing
A.A.H. Abdellatif, F.A. Alhumaydhi, O. Al Rugaie, N.S. Tolba, A.M. Mousa Department of Pharmaceutics, College of Pharmacy, Qassim University, Buraydah, Al-Qassim, Saudi Arabia. a.abdellatif@qu.edu.sa
OBJECTIVE: Silver nanoparticles (G-AgNPs) improve wound healing by promoting skin cell proliferation and differentiation. Therefore, G-AgNPs could act as drug carriers and wound healers in biomedicine. The current study aimed to improve skin wound healing using natural, safe G-AgNPs.
MATERIALS AND METHODS: The G-AgNPs were reduced with ethylcellulose (EC) and incorporated into an oil-in-water cream base. The size, charges, and wavelength were used to characterize the prepared G-AgNPs. Further, the transmission electron microscope (TEM) and the scanning electron microscope (SEM) were used to provide the shape of G-AgNPs. Moreover, the skin wound healing was evaluated with the appropriate histopathological techniques in a mouse model with skin injury to prove the curative effects of G-AgNPs which was conducted for 15 days on 45 adult male albino rats. The effectiveness of G-AgNPs-EC cream for treating surgical skin wounds was assessed by histopathological (HP) examination of hematoxylin and eosin (H&E) stained sections.
RESULTS: The produced G-AgNPs-EC showed a size of 183.9 ± 0.854 nm and a charge of -14.0 ± 0.351 mV. UV-VIS spectra showed a strong absorption of electromagnetic waves in the visible region at 381 nm. Furthermore, the TEM and SEM showed rounded NPs in nano size of the prepared G-AgNPs-EC. The G-AgNPs cream was pivotal in enhancing wounds’ healing properties, improving the formation of wound granulation tissue, and enhancing the proliferation of epithelial tissue in rats.
CONCLUSIONS: The current study showed that G-AgNPs-EC is a new skin wound healer that speeds up healing.
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To cite this article
A.A.H. Abdellatif, F.A. Alhumaydhi, O. Al Rugaie, N.S. Tolba, A.M. Mousa
Topical silver nanoparticles reduced with ethylcellulose enhance skin wound healing
Eur Rev Med Pharmacol Sci
Year: 2023
Vol. 27 - N. 2
Pages: 744-754
DOI: 10.26355/eurrev_202301_31077