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Development of a polyacrylamide/chitosan composite hydrogel conduit containing synergistic cues of elasticity and topographies for promoting peripheral nerve regeneration

Fang Liu, Jiawei Xu, Anning Liu, Linliang Wu, Dongzhi Wang, Qi Han, Tiantian Zheng, Feiran Wang, Yan Kong, Guicai Li, Peng Li, Shouyong Gu, Yumin Yang

2022Biomaterials Science22 citationsDOI

Abstract

experiments showed that on a PAM/CS composite hydrogel with an elastic modulus of 5.822 kPa/8.41 kPa and a surface groove width of 30 μm, the dorsal root ganglion (DRG) neurite had a strong growth ability and better-oriented status. The samples were taken from each group at 2 and 12 weeks after bridging rabbit sciatic nerve defects with a PAM/CS composite hydrogel conduit. General observation of the rabbit body and transplanted nerve, nerve electro-physiological examination, muscle wet weight recovery rate detection and comparison, observation of sciatic nerve frozen section immunofluorescence staining and myelinated nerve fiber recovery rate comparison were used to evaluate the effect of nerve transplantation. The elastic modulus of 8.41 kPa and groove width of 30 μm were similar to those of the autograft group. At the same time, the signaling pathways, including the focal adhesion markers vinculin, p-FAK, and Rho A protein, referring to axon adhesion and extension, were initially revealed. In summary, our developed hydrogel implants containing synergistic cues of elasticity and topographies may provide a new and effective strategy for the treatment of peripheral nerve injury in the future.

Topics & Concepts

Sciatic nerveSelf-healing hydrogelsNeuriteRegeneration (biology)Nerve guidance conduitChemistryBiomedical engineeringAxonDorsal root ganglionBiophysicsIn vivoChitosanPeripheral nerve injuryMaterials scienceAnatomyIn vitroCell biologyPolymer chemistryBiochemistryMedicineDorsumBiotechnologyBiologyNerve injury and regenerationElectrospun Nanofibers in Biomedical ApplicationsGraphene and Nanomaterials Applications