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Hybrid Bionanocomposite Containing Magnesium Hydroxide Nanoparticles Embedded in a Carboxymethyl Cellulose Hydrogel Plus Silk Fibroin As a Scaffold for Wound Dressing Applications Publisher Pubmed



Eivazzadehkeihan R1 ; Khalili F1 ; Khosropour N1 ; Aliabadi HAM2 ; Radinekiyan F1 ; Sukhtezari S1 ; Maleki A1 ; Madanchi H3, 4 ; Hamblin MR5, 6, 7 ; Mahdavi M8 ; Haramshahi SMA9 ; Shalan AE10, 11 ; Lancerosmendez S10, 12
Authors
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Authors Affiliations
  1. 1. Catalysts and Organic Synthesis Research Laboratory, Department of Chemistry, Iran University of Science and Technology, Tehran, 16846-13114, Iran
  2. 2. Protein Chemistry Laboratory, Department of Medical Biotechnology, Biotechnology Research Center, Pasteur Institute of Iran, Tehran, 1316943551, Iran
  3. 3. Department of Biotechnology, School of Medicine, Semnan University of Medical Sciences, Semnan, 35147-99442, Iran
  4. 4. Drug Design and Bioinformatics Unit, Department of Medical Biotechnology, Biotechnology Research Center, Pasteur Institute of Iran, Tehran, 1316943551, Iran
  5. 5. Wellman Center for Photomedicine, Massachusetts General Hospital, Boston, 02114, MA, United States
  6. 6. Department of Dermatology, Harvard Medical School, Boston, 02115, MA, United States
  7. 7. Harvard-MIT Division of Health Sciences and Technology, Cambridge, 02139, MA, United States
  8. 8. Endocrinology and Metabolism Research Center, Endocrinology and Metabolism Clinical Sciences Institute, Tehran University of Medical Sciences, Tehran, 1496913345, Iran
  9. 9. Department of Tissue Engineering and Regenerative Medicine, Faculty of Advanced Technologies in Medicine, Iran University of Medical Sciences, Tehran, 1449614535, Iran
  10. 10. BCMaterials, Basque Center for Materials, Applications and Nanostructures, Martina Casiano, UPV/EHU Science Park, Barrio Sarriena s/n, Leioa, 48940, Spain
  11. 11. Central Metallurgical Research and Development Institute (CMRDI), P.O. Box 87, Helwan, Cairo, 11421, Egypt
  12. 12. Ikerbasque, Basque Foundation for Science, Bilbao, 48009, Spain

Source: ACS Applied Materials and Interfaces Published:2021


Abstract

Based on the promising biomedical developments in wound healing strategies, herein, a new nanobiocomposite scaffold was designed and presented by incorporation of carboxymethyl cellulose hydrogels prepared using epichlorohydrin as a cross-linking agent (CMC hydrogel), a natural silk fibroin (SF) protein, and magnesium hydroxide nanoparticles (Mg(OH)2 NPs). Biological evaluation of the CMC hydrogel/SF/Mg(OH)2 nanobiocomposite scaffold was conducted via in vitro cell viability assays and in vivo assays, red blood cell hemolysis, and antibiofilm assays. Considering the cell viability percentage of Hu02 cells (84.5%) in the presence of the prepared nanobiocomposite after 7 days, it was indicated that this new nanoscaffold was biocompatible. The signs of excellent hemocompatibility and the high antibacterial activity were observed due to the low-point hemolytic effect (8.3%) and high-level potential in constraining the P. aeruginosa biofilm formation with a low OD value (0.13). Moreover, in vivo wound healing assay results indicated that the wound healing method was faster in mice treated with the prepared nanobiocomposite scaffold (82.29%) than the control group (75.63%) in 12 days. Apart from the structural characterization of the CMC hydrogel/SF/Mg(OH)2 nanobiocomposite through FTIR, EDX, FESEM, and TG analyses, compressive mechanical tests, contact angle, porosity, and swelling ratio studies indicated that the combination of the CMC hydrogel structure with SF protein and Mg(OH)2 NPs could significantly impact Young's modulus (from 11.34 to 10.14 MPa), tensile strength (from 299.35 to 250.78 MPa), elongation at break (12.52 to 12.84%), hydrophilicity, and water uptake capacity (92.5%). © 2021 American Chemical Society.
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