RT null
T1 The impact of graphene on neural regenerative medicine.
A1 Rodriguez-Losada, Noela
A1 Aguirre, Jose A
K1 Carbon-based nanomaterials
K1 Biocompatibility
K1 Scaffolds
K1 Neuronal regeneration
K1 Neural interfacing
AB There is increasing interest in studying carbon-based nanomaterials (CBNs) for use in regenerative medicine. Some carbon crystalline structures, such as graphene, carbon nanotubes/nanofibers, boron nitride nanosheets/nanotubes and fullerenes, as well as disordered structures, such as diamond-like carbon, glass-like carbon, and amorphous carbon, are now being considered as promising scaffolds (Ferreira et al., 2015; Kabiri et al., 2015), and therefore, studies of their biocompatibilities have begun to be reported in recent years. There are recent examples of the successful use of graphene-based substrates as interfaces for neuronal growth while retaining neuronal signaling properties without alteration (Fabbro et al., 2015) or as a bioscaffold for neuronal regeneration after spinal cord injury (Palejwala et al., 2016); nevertheless, the potential of CBNs as a neural interfacing material for neural repair and regeneration remains poorly understood.
PB Wolters Kluwer
SN 1673-5374
YR 2017
FD 2017
LK http://hdl.handle.net/10668/11540
UL http://hdl.handle.net/10668/11540
LA en
NO Rodriguez-Losada N, Aguirre JA. The impact of graphene on neural regenerative medicine. Neural Regen Res. 2017;12(7):1071-1072.
NO This work was supported by the University of Malaga, Campus de Excelencia Internacional Andalucia Tech, and Andalucia Government PAIDI-CTS156, Spain.
DS RISalud
RD Oct 18, 2025