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Schwann cell-encapsulated chitosan-collagen hydrogel nerve conduit promotes peripheral nerve regeneration in rodent sciatic nerve defect models.

Hiroaki TakeyaShun ItaiHiroo KimuraYuta KurashinaTsuyoshi AmemiyaNarihito NagoshiTakuji IwamotoKazuki SatoShinsuke ShibataMorio MatsumotoHiroaki OnoeMasaya Nakamura
Published in: Scientific reports (2023)
Chitosan has various tissue regeneration effects. This study was designed to investigate the nerve regeneration effect of Schwann cell (SC)-encapsulated chitosan-collagen hydrogel nerve conduit (CCN) transplanted into a rat model of sciatic nerve defect. We prepared a CCN consisting of an outer layer of chitosan hydrogel and an inner layer of collagen hydrogel to encapsulate the intended cells. Rats with a 10-mm sciatic nerve defect were treated with SCs encapsulated in CCN (CCN+), CCN without SCs (CCN-), SC-encapsulated silicone tube (silicone+), and autologous nerve transplanting (auto). Behavioral and histological analyses indicated that motor functional recovery, axonal regrowth, and myelination of the CCN+ group were superior to those of the CCN- and silicone+ groups. Meanwhile, the CCN- and silicone+ groups showed no significant differences in the recovery of motor function and nerve histological restoration. In conclusion, SC-encapsulated CCN has a synergistic effect on peripheral nerve regeneration, especially axonal regrowth and remyelination of host SCs. In the early phase after transplantation, SC-encapsulated CCNs have a positive effect on recovery. Therefore, using SC-encapsulated CCNs may be a promising approach for massive peripheral nerve defects.
Keyphrases
  • peripheral nerve
  • wound healing
  • drug delivery
  • hyaluronic acid
  • stem cells
  • tissue engineering
  • cell therapy
  • spinal cord injury
  • signaling pathway
  • cell proliferation
  • mesenchymal stem cells
  • optical coherence tomography