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Tissue-Engineered Core-Shell Silk-Fibroin/Poly- L -Lactic Acid Nerve Guidance Conduit Containing Encapsulated Exosomes of Human Endometrial Stem Cells Promotes Peripheral Nerve Regeneration Publisher Pubmed



Namini MS1 ; Ebrahimibarough S1 ; Ai J1 ; Jahromi HK2 ; Mikaeiliagah E3 ; Azami M1 ; Bahrami N1 ; Lotfibakhshaiesh N1 ; Saremi J2 ; Shirian S4, 5
Authors
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Authors Affiliations
  1. 1. Department of Tissue Engineering, School of Advanced Technologies in Medicine, Tehran University of Medical Sciences, Tehran, 1417743373, Iran
  2. 2. Research Center for Noncommunicable Diseases, Jahrom University of Medical Sciences, Jahrom, 7414846199, Iran
  3. 3. Stem Cell and Tissue Engineering Laboratory, Department of Orthopaedics, West Virginia University, Morgantown, 26505, WV, United States
  4. 4. Department of Pathology, School of Veterinary Pathology, Shahrekord University, Shahrekord, 8818634141, Iran
  5. 5. Shiraz Molecular Pathology Research Center, Dr. Daneshbod Path Lab, Shiraz, 8818634141, Iran

Source: ACS Biomaterials Science and Engineering Published:2023


Abstract

Nerve guide conduits (NGCs) have been shown to be less efficient than nerve autografts in peripheral nerve regeneration. To address this issue, we developed for the first time a novel tissue-engineered nerve guide conduit structure encapsulated with human endometrial stem cell (EnSC) derived exosomes, which promoted nerve regeneration in rat sciatic nerve defects. In this study, we initially indicated the long-term efficacy and safety impacts of newly designed double layered SF/PLLA nerve guide conduits. Then the regeneration effects of SF/PLLA nerve guide conduits containing exosomes derived from human EnSCs were evaluated in rat sciatic nerve defects. The human EnSC derived exosomes were isolated from the supernatant of human EnSC cultures and characterized. Subsequently, the human EnSC derived exosomes were encapsulated in constructed NGCs by fibrin gel. For in vivo studies, entire 10 mm peripheral nerve defects were generated in rat sciatic nerves and restored with NGC encapsulated with human EnSC derived exosomes (Exo-NGC group), nerve guide conduits, and autografts. The efficiency of the NGCs encapsulated with human EnSCs derived exosomes in assisting peripheral nerve regeneration was investigated and compared with other groups. The in vivo results demonstrated that encapsulated human EnSC derived exosomes in NGC (Exo-NGC) significantly benefitted nerve regeneration based on motor function, sensory reaction, and electrophysiological results. Furthermore, immunohistochemistry with histopathology results showed the formation of regenerated nerve fibers, along with blood vessels that newly were developed, as a result of the exosome functions in the Exo-NGC group. These outcomes illustrated that the newly designed core-shell SF/PLLA nerve guide conduit encapsulated with human EnSC derived exosomes enhanced the regeneration process of axons and improved the functional recovery of rat sciatic nerve defects. So, encapsulated human EnSC-derived exosomes in a core-shell SF/PLLA nerve guide conduit are a potential therapeutic cell-free treatment for peripheral nerve defects. © 2023 American Chemical Society. All rights reserved.
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