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Electrospun Polyurethane-Gelatin Composite: A New Tissue-Engineered Scaffold for Application in Skin Regeneration and Repair of Complex Wounds Publisher Pubmed



Sheikholeslam M1, 2, 7 ; Wright MEE3 ; Cheng N1, 2 ; Oh HH1, 2 ; Wang Y1, 2 ; Datu AK1 ; Santerre JP3, 4 ; Amininik S1, 2, 5 ; Jeschke MG1, 2, 6
Authors
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Authors Affiliations
  1. 1. Ross Tilley Burn Centre, Sunnybrook Research Institute, Sunnybrook Health Sciences Centre, University of Toronto, 2075 Bayview Avenue, Toronto, M4N 3M5, ON, Canada
  2. 2. Department of Surgery, Immunology, Division Plastic Surgery, University of Toronto, Toronto, M5S 3K1, ON, Canada
  3. 3. Institute of Biomaterials and Biomedical Engineering, Translational Biology and Engineering Program, Ted Rogers Centre for Heart Research, University of Toronto, Toronto, M5S 3K1, ON, Canada
  4. 4. Faculty of Dentistry, University of Toronto, Toronto, M5S 3K1, ON, Canada
  5. 5. Department of Laboratory Medicine and Pathobiology, University of Toronto, Toronto, M5S 3K1, ON, Canada
  6. 6. Institute of Medical Science, University of Toronto, Toronto, M5S 3K1, ON, Canada
  7. 7. Department of Biomaterials, Tissue Engineering and Nanotechnology, School of Advanced Technologies in Medicine, Isfahan University of Medical Sciences, Isfahan, 81746-73461, Iran

Source: ACS Biomaterials Science and Engineering Published:2020


Abstract

Wound healing is vital for patients with complex wounds including burns. While the gold standard of skin transplantation ensures a surgical treatment to heal wounds, it has its limitations, for example, insufficient donor sites for patients with large burn wounds and creation of wounds and pain when harvesting the donor skin. Therefore, tissue-engineered skin is of paramount importance. The aim of this study is to investigate and characterize an elastomeric acellular scaffold that would demonstrate the ability to promote skin regeneration. A hybrid gelatin-based electrospun scaffold is fabricated via the use of biodegradable polycarbonate polyurethane (PU). It is hypothesized that the addition of PU would enable a tailored degradation rate and an enhanced mechanical strength of electrospun gelatin. Introducing 20% PU to gelatin scaffolds (Gel80-PU20) results in a significant increase in the degradation resistance, yield strength, and elongation of these scaffolds without altering the cell viability. In vivo studies using a mouse excisional wound biopsy grafted with the scaffolds reveals that the Gel80-PU20 scaffold enables greater cell infiltration than clinically established matrices, for example, Integra (dermal regeneration matrix, DRM), a benchmark scaffold. Immunostaining shows fewer macrophages and myofibroblastic cells on the Gel80-PU20 scaffold when compared with the DRM. The findings show that electrospun Gel80-PU20 scaffolds hold potential for generating tissue substitutes and overcoming some limitations of conventional wound care matrices. © 2019 American Chemical Society.
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