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Preclinical assessment on neuronal regeneration in the injury-related microenvironment of graphene-based scaffolds

Yun Qian, Xu Wang, Jialin Song, Wei Chen, Shuai Chen, Yi Jin, Yuanming Ouyang, Wei‐En Yuan, Cunyi Fan

2021npj Regenerative Medicine75 citationsDOIOpen Access PDF

Abstract

As the application of graphene nanomaterials gets increasingly attractive in the field of tissue engineering and regenerative medicine, the long-term evaluation is necessary and urgent as to their biocompatibility and regenerative capacity in different tissue injuries, such as nerve, bone, and heart. However, it still remains controversial about the potential biological effects of graphene on neuronal activity, especially after severe nerve injuries. In this study, we establish a lengthy peripheral nerve defect rat model and investigate the potential toxicity of layered graphene-loaded polycaprolactone scaffold after implantation during 18 months in vivo. In addition, we further identify possible biologically regenerative effects of this scaffold on myelination, axonal outgrowth, and locomotor function recovery. It is confirmed that graphene-based nanomaterials exert negligible toxicity and repair large nerve defects by dual regulation of Schwann cells and astroglia in the central and peripheral nervous systems. The findings enlighten the future of graphene nanomaterial as a key type of biomaterials for clinical translation in neuronal regeneration.

Topics & Concepts

Regeneration (biology)Regenerative medicineScaffoldNeurosciencePeripheral nerve injuryTissue engineeringMedicineBiomedical engineeringStem cellCell biologyBiologyGraphene and Nanomaterials ApplicationsNanoparticles: synthesis and applicationsCarbon and Quantum Dots Applications