Advancement in Wound Healing by the Application of Folate Functionalized Metallic Colloidal Antibiotherapy (
Rihab Osman; Gehanne Awad; Nahed Mortada; Abdelgawad, Roxane;
Abstract
References
Research Article | Open Access
Advancement in Wound Healing by the Application of Folate Functionalized Metallic Colloidal Antibiotherapy
Roxane Abdel-Gawad*;Rihab Osman;Gehanne AS Awad;Nahed Mortada;
Corresponding Author(s) : Roxane Abdel Gawad
Department of Pharmaceutics and Industrial Pharmacy, Faculty of Pharmacy, Ain Shams University, P.O. Box 11566, Cairo, Egypt.
roxanne_abdelgawad@pharma.asu.edu.eg
Abdel-Gawad R (2024).
This Article is distributed under the terms of Creative Commons Attribution 4.0 International License
Received : Dec 01, 2024
Accepted : Jan 06, 2025
Published Online : Online: Jan 13, 2025
Journal : Journal of Nanomedicine
Publisher : MedDocs Publishers LLC
Online edition : http://meddocsonline.org
Cite this article: Abdel-Gawad R, Osman R, Awad GAS, Mortada N. Advancement in Wound Healing by the Application of Folate Functionalized Metallic Colloidal Antibiotherapy. J Nanomed. 2025; 8(1): 1070.
Abstract
Folic Acid (FA) is introducing itself as a useful addition to wound management protocol. Herein, we report a novel eco-friendly method to prepare silver nanoparticles (AgNPs) using the anabolic FA as a reducing agent. The synthesis of FA-stabilized AgNPs (FA-AgNPs) was confirmed by spectrophotometric analysis, revealing the presence of the characteristic absorption peak corresponding to the Surface Plasmon Resonance of colloidal FA-AgNPs. FA intercalation in the colloidal AgNPs was proved by EDX, FTIR and UV spectrophotometry. FA-AgNPs loaded with cefotaxime sodium (cef.Na) demonstrated a synergistic antibacterial activity against both gram-positive and gram-negative. Superior cell survival, using normal skin fibroblasts, was proved in the presence of FA, in addition to enhanced cell survival at high Ag content due to the large-sized particles obtained. The wound healing activity, evaluated in injured rats, showed more than 85% of wound closure after 2 weeks. As healing proceeds, the oxidative stress decreases as delineated by a decrease in Malondialdehyde (MDA) and an increase in Superoxide Dismutase (SOD) levels.
Statement of significance: This study focuses of synthesizing silver nanoparticles in an eco-friendly way using anabolic folic acid, then loading it with a broad spectrum antibiotic, cefotaxime sodium. This environmentally safe green method produced colloidal nanoparticles combining the synergistic antibacterial potential of silver and the antibiotic, producing low mutagenic risk potion, considered an illuminated hope to control and prevent microbial resistance. Folic acid being engulfed in the silver nanoparticles decorated with cefotaxime sodium produced a mosaic working in harmony to achieve clean rapid and scar-less wound healing in short time frame. Such combination could be easily loaded on biogenic wound dressings’ platform to facilitate its application on wounded surface.
Research Article | Open Access
Advancement in Wound Healing by the Application of Folate Functionalized Metallic Colloidal Antibiotherapy
Roxane Abdel-Gawad*;Rihab Osman;Gehanne AS Awad;Nahed Mortada;
Corresponding Author(s) : Roxane Abdel Gawad
Department of Pharmaceutics and Industrial Pharmacy, Faculty of Pharmacy, Ain Shams University, P.O. Box 11566, Cairo, Egypt.
roxanne_abdelgawad@pharma.asu.edu.eg
Abdel-Gawad R (2024).
This Article is distributed under the terms of Creative Commons Attribution 4.0 International License
Received : Dec 01, 2024
Accepted : Jan 06, 2025
Published Online : Online: Jan 13, 2025
Journal : Journal of Nanomedicine
Publisher : MedDocs Publishers LLC
Online edition : http://meddocsonline.org
Cite this article: Abdel-Gawad R, Osman R, Awad GAS, Mortada N. Advancement in Wound Healing by the Application of Folate Functionalized Metallic Colloidal Antibiotherapy. J Nanomed. 2025; 8(1): 1070.
Abstract
Folic Acid (FA) is introducing itself as a useful addition to wound management protocol. Herein, we report a novel eco-friendly method to prepare silver nanoparticles (AgNPs) using the anabolic FA as a reducing agent. The synthesis of FA-stabilized AgNPs (FA-AgNPs) was confirmed by spectrophotometric analysis, revealing the presence of the characteristic absorption peak corresponding to the Surface Plasmon Resonance of colloidal FA-AgNPs. FA intercalation in the colloidal AgNPs was proved by EDX, FTIR and UV spectrophotometry. FA-AgNPs loaded with cefotaxime sodium (cef.Na) demonstrated a synergistic antibacterial activity against both gram-positive and gram-negative. Superior cell survival, using normal skin fibroblasts, was proved in the presence of FA, in addition to enhanced cell survival at high Ag content due to the large-sized particles obtained. The wound healing activity, evaluated in injured rats, showed more than 85% of wound closure after 2 weeks. As healing proceeds, the oxidative stress decreases as delineated by a decrease in Malondialdehyde (MDA) and an increase in Superoxide Dismutase (SOD) levels.
Statement of significance: This study focuses of synthesizing silver nanoparticles in an eco-friendly way using anabolic folic acid, then loading it with a broad spectrum antibiotic, cefotaxime sodium. This environmentally safe green method produced colloidal nanoparticles combining the synergistic antibacterial potential of silver and the antibiotic, producing low mutagenic risk potion, considered an illuminated hope to control and prevent microbial resistance. Folic acid being engulfed in the silver nanoparticles decorated with cefotaxime sodium produced a mosaic working in harmony to achieve clean rapid and scar-less wound healing in short time frame. Such combination could be easily loaded on biogenic wound dressings’ platform to facilitate its application on wounded surface.
Other data
| Title | Advancement in Wound Healing by the Application of Folate Functionalized Metallic Colloidal Antibiotherapy ( | Authors | Rihab Osman; Gehanne Awad; Nahed Mortada; Abdelgawad, Roxane | Issue Date | 2024 | Journal | Journal of nanomedicine |
Attached Files
| File | Description | Size | Format | Existing users please Login |
|---|---|---|---|---|
| Advancement in Wound Healing by the.pdf | 2.14 MB | Adobe PDF | Request a copy |
Similar Items from Core Recommender Database
Items in Ain Shams Scholar are protected by copyright, with all rights reserved, unless otherwise indicated.