期刊
INTERNATIONAL JOURNAL OF MOLECULAR SCIENCES
卷 22, 期 15, 页码 -出版社
MDPI
DOI: 10.3390/ijms22157901
关键词
contact guidance; Schwann cells; nerve regeneration
资金
- [RF-2018-12366887]
The study presents a method using chitosan scaffolds to promote nerve regeneration, showing that asymmetric directional topographies can enhance cell proliferation and migration speed.
Peripheral nerve injuries are a common condition in which a nerve is damaged, affecting more than one million people every year. There are still no efficient therapeutic treatments for these injuries. Artificial scaffolds can offer new opportunities for nerve regeneration applications; in this framework, chitosan is emerging as a promising biomaterial. Here, we set up a simple and effective method for the production of micro-structured chitosan films by solvent casting, with high fidelity in the micro-pattern reproducibility. Three types of chitosan directional micro-grooved patterns, presenting different levels of symmetricity, were developed for application in nerve regenerative medicine: gratings (GR), isosceles triangles (ISO) and scalene triangles (SCA). The directional patterns were tested with a Schwann cell line. The most asymmetric topography (SCA), although it polarized the cell shaping less efficiently, promoted higher cell proliferation and a faster cell migration, both individually and collectively, with a higher directional persistence of motion. Overall, the use of micro-structured asymmetrical directional topographies may be exploited to enhance the nerve regeneration process mediated by chitosan scaffolds.
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