Effects of Schwann cell alignment along the oriented electrospun chitosan nanofibers on nerve regeneration

We have constructed a chitosan nonwoven nanofiber mesh tube consisting of oriented fibers by the electrospinning method. The efficacy of oriented nanofibers on Schwann cell alignment and positive effect of this tube on peripheral nerve regeneration were confirmed. The physical properties of the chit...

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Bibliographic Details
Published in:Journal of biomedical materials research. Part A 2009-12, Vol.91A (4), p.994-1005
Main Authors: Wang, Wei, Itoh, Soichiro, Konno, Katsumi, Kikkawa, Takeshi, Ichinose, Shizuko, Sakai, Katsuyoshi, Ohkuma, Tsuneo, Watabe, Kazuhiko
Format: Article
Language:English
Subjects:
Action Potentials - drug effects
Animals
Cells, Cultured
chitosan
Chitosan - pharmacology
electrospinning
Immunohistochemistry
Implants, Experimental
Mechanical Phenomena - drug effects
Mice
Motor Activity - drug effects
nanofiber
Nanofibers - chemistry
nerve regeneration
Nerve Regeneration - drug effects
orientation
Prosthesis Implantation
Rats
Recovery of Function - drug effects
Schwann Cells - drug effects
Schwann Cells - metabolism
Schwann Cells - pathology
Schwann Cells - ultrastructure
Sciatic Nerve - injuries
Sciatic Nerve - pathology
Sciatic Nerve - physiopathology
Sciatic Nerve - transplantation
Tissue Engineering - methods
Transplantation, Isogeneic
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Summary:We have constructed a chitosan nonwoven nanofiber mesh tube consisting of oriented fibers by the electrospinning method. The efficacy of oriented nanofibers on Schwann cell alignment and positive effect of this tube on peripheral nerve regeneration were confirmed. The physical properties of the chitosan nanofiber mesh sheets prepared by electrospinning with or without fiber orientation were characterized. Then, immortalized Schwann cells were cultured on these sheets. Furthermore, the chitosan nanofiber mesh tubes with or without orientation, and bilayered chitosan mesh tube with an inner layer of oriented nanofibers and an outer layer of randomized nanofibers were bridgegrafted into rat sciatic nerve defect. As a result of fiber orientation, the tensile strength along the axis of the sheet increased. Because Schwann cells aligned along the nanofibers, oriented fibrous sheets could exhibit a Schwann cell column. Functional recovery and electrophysiological recovery occurred in time in the oriented group as well as in the bilayered group, and approximately matched those in the isograft. Furthermore, histological analysis revealed that the sprouting of myelinated axons occurred vigorously followed by axonal maturation in the isograft, oriented, and bilayered group in the order. The oriented chitosan nanofiber mesh tube may be a promising substitute for autogenous nerve graft. © 2008 Wiley Periodicals, Inc. J Biomed Mater Res, 2009
ISSN:1549-3296
1552-4965
1552-4965
DOI:10.1002/jbm.a.32329