Synthesis of Chitosan Collagen Nanoparticles from Iraqi Catfish (Siluriformes) Skin and Evaluation of their Antibacterial Activity
Jebur, D., Saadedin, S. (2025). Synthesis of Chitosan Collagen Nanoparticles from Iraqi Catfish (Siluriformes) Skin and Evaluation of their Antibacterial Activity. EKB Journal Management System, 34(3), 157-164. doi: 10.21608/ejmm.2025.360748.1476
Dooa M. Jebur; Shurook M.K. Saadedin. "Synthesis of Chitosan Collagen Nanoparticles from Iraqi Catfish (Siluriformes) Skin and Evaluation of their Antibacterial Activity". EKB Journal Management System, 34, 3, 2025, 157-164. doi: 10.21608/ejmm.2025.360748.1476
Jebur, D., Saadedin, S. (2025). 'Synthesis of Chitosan Collagen Nanoparticles from Iraqi Catfish (Siluriformes) Skin and Evaluation of their Antibacterial Activity', EKB Journal Management System, 34(3), pp. 157-164. doi: 10.21608/ejmm.2025.360748.1476
Jebur, D., Saadedin, S. Synthesis of Chitosan Collagen Nanoparticles from Iraqi Catfish (Siluriformes) Skin and Evaluation of their Antibacterial Activity. EKB Journal Management System, 2025; 34(3): 157-164. doi: 10.21608/ejmm.2025.360748.1476

Synthesis of Chitosan Collagen Nanoparticles from Iraqi Catfish (Siluriformes) Skin and Evaluation of their Antibacterial Activity

Egyptian Journal of Medical Microbiology
Volume 34, Issue 3, July 2025, Pages 157-164    PDF (7.35 M)
Document Type: New and original researches in the field of Microbiology.
DOI: 10.21608/ejmm.2025.360748.1476
Authors
Dooa M. Jebur* ; Shurook M.K. Saadedin
Institute of genetic engineering and Biotechnology for Higher Studies, University of Baghdad, Iraq
Abstract
Background: Chitosan-collagen nanoparticles have emerged as promising materials for biomedical applications due to their excellent biocompatibility, biodegradability, and antimicrobial properties.  The synthesis of nanocollagen from Iraqi catfish (Siluriformes) skin using chitosan and sodium tripolyphosphate (STPP) as crosslinking agents represents an innovative approach to creating biocompatible nanoparticles. The study utilizes various analytical techniques such as FTIR, UV-Vis, XRD, and SEM to characterize and understand the properties of nanoparticles. Objective: This study aimed to evaluate the efficacy of nano-collagen in managing infections caused by multidrug-resistant bacteria such as Staphylococcus aureus and Pseudomonas aeruginosa. Methodology: Bacterial isolates were collected from patients with wound infections at the Al-Zahrawi Hospital in Maysan. Identification was confirmed using selective media (MacConkey agar and mannitol salt agar) and standard microbiological tests, including Gram staining and biochemical assays. The Vitek-2 system was used for precise bacterial identification. Results: Minimum inhibitory concentration (MIC) tests demonstrated that nano-collagen doubled the antibacterial efficacy of collagen extract. The MIC was 47.5 µg/mL (nano-collagen) vs.  95 µg/mL (collagen extract).  against S. aureus the MIC was 95 µg/mL (nano-collagen) vs. 380 µg/mL (collagen extract). Conclusion: These findings suggest that nanocollagen is a promising biomaterial for regenerative medicine and advanced wound care.
Keywords
Collagen; Nanocollagen; Chitosan; FTIR; XRD
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