Litcius/Paper detail

Nerve Guidance Conduits with Hierarchical Anisotropic Architecture for Peripheral Nerve Regeneration

Qingqing Lu, Qingqing Lu, Feng Zhang, Weinan Cheng, Xiang Gao, Zhaozhao Ding, Xiaoyi Zhang, Qiang Lü, Qiang Lü, David L. Kaplan

2021Advanced Healthcare Materials79 citationsDOIOpen Access PDF

Abstract

Nerve guidance conduits with multifunctional features could offer microenvironments for improved nerve regeneration and functional recovery. However, the challenge remains to optimize multiple cues in nerve conduit systems due to the interplay of these factors during fabrication. Here, a modular assembly for the fabrication of nerve conduits is utilized to address the goal of incorporating multifunctional guidance cues for nerve regeneration. Silk-based hollow conduits with suitable size and mechanical properties, along with silk nanofiber fillers with tunable hierarchical anisotropic architectures and microporous structures, are developed and assembled into conduits. These conduits supported improves nerve regeneration in terms of cell proliferation (Schwann and PC12 cells) and growth factor secretion (BDNF, brain-derived neurotrophic factor) in vitro, and the in vivo repair and functional recovery of rat sciatic nerve defects. Nerve regeneration using these new conduit designs is comparable to autografts, providing a path towards future clinical impact.

Topics & Concepts

Nerve guidance conduitRegeneration (biology)Materials scienceNeurotrophic factorsNerve growth factorTissue engineeringElectrical conduitSciatic nerveBiomedical engineeringAnatomyCell biologyComputer scienceBiologyMedicineTelecommunicationsReceptorBiochemistryNerve injury and regenerationSilk-based biomaterials and applicationsGraphene and Nanomaterials Applications