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A Novel Flexible, Conductive, and Three-Dimensional Reduced Graphene Oxide/Polyurethane Scaffold for Cell Attachment and Bone Regeneration Publisher



Sanati A1 ; Kefayat A1, 2 ; Rafienia M1 ; Raeissi K3 ; Siavash Moakhar R4 ; Salamat MR5 ; Sheibani S6 ; Presley JF6 ; Vali H6
Authors
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Authors Affiliations
  1. 1. Biosensor Research Center, Isfahan University of Medical Sciences, Isfahan, Iran
  2. 2. Department of Oncology, Isfahan University of Medical Sciences, Isfahan, Iran
  3. 3. Department of Materials Engineering, Isfahan University of Technology, Isfahan, 84156-83111, Iran
  4. 4. Department of Bioengineering, McGill University, Montreal, H3A 0E9, QC, Canada
  5. 5. Department of Medical Physics, School of Medicine, Isfahan University of Medical Sciences, Isfahan, Iran
  6. 6. Department of Anatomy and Cell Biology, McGill University, Montreal, H3A 0C7, QC, Canada

Source: Materials and Design Published:2022


Abstract

Development of conductive and three-dimensional scaffolds with elastic properties and shape-recovery capability for bone regeneration within irregular bone cavities has been challenging. Polyurethanes (PUs) are intrinsically elastic polymers; however, their mechanical performance, biocompatibility, and functionality need to be improved for application as implants and biomedical devices. Herein, application of a novel flexible, conductive, and three-dimensional polyurethane scaffold (3DPU), fabricated through coating a commercial PU foam with graphene oxide (GO) and its subsequent reduction with ascorbic acid, described as 3DrGO/PU, is investigated for bone regeneration. The 3DrGO/PU scaffold supported the growth and proliferation of mouse osteoblast cells (MG-63) with strong mineralization and cell attachment. It is likely that the electrically conductive macro-porous 3DrGO/PU scaffold, provides bioactivity and promote nucleation and growth of hydroxyapatite (HA) in the simulated body fluid. Experiments assessing in vivo bone formation in rat calvarial skull defects provided clear evidence for efficacy of the 3D scaffold for treatment of irregular bone defects. The results of this study are promising, as they present easy production of a cost-effective green fabricated scaffold. It also offers a potential for cell attachment and capture, to be used in future tissue engineering and even biosensing applications. © 2022 The Authors
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