Frontiers in Cell and Developmental Biology (Jul 2024)

BDNF-loaded chitosan-based mimetic mussel polymer conduits for repair of peripheral nerve injury

  • Lei Li,
  • Ziyue Chu,
  • Shihao Li,
  • Tong Zheng,
  • Shusheng Wei,
  • Yunpeng Zhao,
  • Peilai Liu,
  • Qunshan Lu

DOI
https://doi.org/10.3389/fcell.2024.1431558
Journal volume & issue
Vol. 12

Abstract

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Care for patients with peripheral nerve injury is multifaceted, as traditional methods are not devoid of limitations. Although the utilization of neural conduits shows promise as a therapeutic modality for peripheral nerve injury, its efficacy as a standalone intervention is limited. Hence, there is a pressing need to investigate a composite multifunctional neural conduit as an alternative treatment for peripheral nerve injury. In this study, a BDNF-loaded chitosan-based mimetic mussel polymer conduit was prepared. Its unique adhesion characteristics allow it to be suture-free, improve the microenvironment of the injury site, and have good antibacterial properties. Researchers utilized a rat sciatic nerve injury model to evaluate the progression of nerve regeneration at the 12-week postoperative stage. The findings of this study indicate that the chitosan-based mimetic mussel polymer conduit loaded with BDNF had a substantial positive effect on myelination and axon outgrowth. The observed impact demonstrated a favorable outcome in terms of sciatic nerve regeneration and subsequent functional restoration in rats with a 15-mm gap. Hence, this approach is promising for nerve tissue regeneration during peripheral nerve injury.

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