Vol. 115 No. 3 (2010)
Original Article

Use of chitosan scaffolds for repairing rat sciatic nerve defects

PDF
  • Maria J. Simões,
  • Sandra Amado,
  • Andrea Gärtner,
  • Paulo A.S. Armada-da-Silva,
  • Stefania Raimondo,
  • Marcia Vieira,
  • Ana L. Luís,
  • Yuki Shirosaki,
  • António P. Veloso,
  • José D. Santos,
  • Artur S.P. Varejão,
  • Stefano Geuna,
  • Ana C. Maurício

Published 2010-12-10

Keywords

  • Nerve regeneration,
  • biomaterials,
  • chitosan,
  • stem cells,
  • kinematics

How to Cite

Simões, M. J., Amado, S., Gärtner, A., Armada-da-Silva, P. A., Raimondo, S., Vieira, M., Luís, A. L., Shirosaki, Y., Veloso, A. P., Santos, J. D., Varejão, A. S., Geuna, S., & Maurício, A. C. (2010). Use of chitosan scaffolds for repairing rat sciatic nerve defects. Italian Journal of Anatomy and Embryology, 115(3), 190–210. Retrieved from https://oajournals.fupress.net/index.php/ijae/article/view/1080
Copyright Notice

Abstract

Neurotmesis must be surgically treated by direct end-to-end suture of the two nerve stumps or by a nerve graft harvested from elsewhere in the body in case of tissue loss. To avoid secondary damage due to harvesting of the nerve graft, a tube-guide can be used to bridge the nerve gap. Previously, our group developed and tested hybrid chitosan membranes for peripheral nerve tubulization and showed that freeze-dried chitosan type III membranes were particularly effective for improving peripheral nerve functional recovery after axonotmesis. Chitosan type III membranes have about 110 µm pores and about 90% of porosity, due to the employment of freeze-drying technique. The present study aimed to verify if chitosan type III membranes can be successfully used also for improving peripheral nerve functional recovery after neurotmesis of the rat sciatic nerve. Sasco Sprague-Dawley adult rats were divided into 6 groups: Group 1: end-to-end neurorrhaphy enwrapped by chitosan membrane type III (End-to-EndChitIII); Group 2: 10mm-nerve gap bridged by an autologous nerve graft enwrapped by chitosan membrane type III (Graft180ºChitIII); Group 3: 10mm-nerve gap bridged by chitosan type III tube-guides (GapChitIII); These 3 experimental groups were compared with 3 control groups, respectively: Group 4: 10mm-nerve gap bridged by an autologous nerve graft (Graft180º); Group 5: 10mm-nerve gap bridged by PLGA 90:10 tube-guides (PLGA); Group 6: end-to-end neurorrhaphy alone (End-to-End). Motor and sensory functional recovery were evaluated throughout a healing period of 20 weeks using extensor postural thrust (EPT), withdrawal reflex latency (WRL) and ankle kinematics. Regenerated nerves withdrawn at the end of the experiment were analysed histologically. Results showed that nerve regeneration was successful in all experimental and control groups and that chitosan type III tubulization induced a significantly better nerve regeneration and functional recovery in comparison to PLGA tubulization control. Further investigation is needed to explore the mechanisms at the basis of the positive effects of chitosan type III on axonal regeneration.
PDF

Most read articles by the same author(s)