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Designing a New Alginate-Fibrinogen Biomaterial Composite Hydrogel for Wound Healing Publisher Pubmed



Soleimanpour M1 ; Mirhaji SS1 ; Jafari S2 ; Derakhshankhah H2 ; Mamashli F1 ; Nedaei H1 ; Karimi MR3 ; Motasadizadeh H4 ; Fatahi Y4 ; Ghasemi A1 ; Nezamtaheri MS1 ; Khajezade M5 ; Teimouri M6 ; Goliaei B1 Show All Authors
Authors
  1. Soleimanpour M1
  2. Mirhaji SS1
  3. Jafari S2
  4. Derakhshankhah H2
  5. Mamashli F1
  6. Nedaei H1
  7. Karimi MR3
  8. Motasadizadeh H4
  9. Fatahi Y4
  10. Ghasemi A1
  11. Nezamtaheri MS1
  12. Khajezade M5
  13. Teimouri M6
  14. Goliaei B1
  15. Delattre C7, 8
  16. Saboury AA1

Source: Scientific Reports Published:2022


Abstract

Wound healing is a complex process and rapid healing necessitates a proper micro-environment. Therefore, design and fabrication of an efficacious wound dressing is an impressive innovation in the field of wound healing. The fabricated wound dressing in this scenario was designed using a combination of the appropriate coagulating and anti-bacterial materials like fibrinogen (as coagulating agent), nisin (as anti-bacterial agent), ethylenediaminetetraacetic acid (as anti-bacterial agent), and alginate (as wound healing agent). Biophysical characterization showed that the interaction of fibrinogen and alginate was associated with minor changes in the secondary structure of the protein. Conformational studies showed that the protein was structurally stable at 42 °C, is the maximum temperature of the infected wound. The properties of the hydrogel such as swelling, mechanical resistance, nisin release, antibacterial activity, cytotoxicity, gel porosity, and blood coagulation were assessed. The results showed a slow release for the nisin during 48 h. Antibacterial studies showed an inhibitory effect on the growth of Gram-negative and Gram-positive bacteria. The hydrogel was also capable to absorb a considerable amount of water and provide oxygenation as well as incorporation of the drug into its structure due to its sufficient porosity. Scanning electron microscopy showed pore sizes of about 14–198 µm in the hydrogel. Cell viability studies indicated high biocompatibility of the hydrogel. Blood coagulation test also confirmed the effectiveness of the synthesized hydrogel in accelerating the process of blood clot formation. In vivo studies showed higher rates of wound healing, re-epithelialization, and collagen deposition. According to the findings from in vitro as well as in vivo studies, the designed hydrogel can be considered as a novel attractive wound dressing after further prerequisite assessments. © 2022, The Author(s).
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