Litcius/Paper detail

Engineering an Injectable Electroactive Nanohybrid Hydrogel for Boosting Peripheral Nerve Growth and Myelination in Combination with Electrical Stimulation

Liumin He, Qiao Xiao, Yuyuan Zhao, Jun Li, Sathish Reddy, Xueshuang Shi, Xin Su, Kin Chiu, Seeram Ramakrishna

2020ACS Applied Materials & Interfaces68 citationsDOI

Abstract

Electrical stimulation (ES) can be used to manipulate recovery after peripheral nerve injuries. Although biomaterial-based strategies have already been implemented to gain momentum for ES and engineer permissive microenvironments for neural regeneration, the development of biomaterials for specific stimuli-responsive modulation of neural cell properties remains a challenge. Herein, we homogeneously incorporate pristine carbon nanotubes into a functional self-assembling peptide to prepare a hybrid hydrogel with good injectability and conductivity. Two-dimensional (on the surface) and three-dimensional (within the hybrid hydrogel) culturing experiments demonstrate that ES promotes axon outgrowth and Schwann cell (SC) migration away from dorsal root ganglia spheres, further revealing that ES-enhanced interactions between SCs and axons result in improved myelination. Thus, our study not only advances the development of tailor-made materials but also provides useful insights into comprehensive approaches for promoting nerve growth and presents a practical strategy of repairing peripheral nerve injuries.

Topics & Concepts

Materials scienceNeural tissue engineeringNanotechnologyBiomaterialTissue engineeringRegeneration (biology)NeuroscienceNeuroprostheticsStimulationBiomedical engineeringBiologyCell biologyEngineeringNerve injury and regenerationNeuroscience and Neural EngineeringPlanarian Biology and Electrostimulation