| Literature DB >> 26700626 |
Alessandra Fabbro1,2, Denis Scaini1,3,4, Verónica León5, Ester Vázquez5, Giada Cellot1, Giulia Privitera6, Lucia Lombardi6, Felice Torrisi6, Flavia Tomarchio6, Francesco Bonaccorso6,7, Susanna Bosi2, Andrea C Ferrari6, Laura Ballerini1,3, Maurizio Prato2,8,9.
Abstract
Neural-interfaces rely on the ability of electrodes to transduce stimuli into electrical patterns delivered to the brain. In addition to sensitivity to the stimuli, stability in the operating conditions and efficient charge transfer to neurons, the electrodes should not alter the physiological properties of the target tissue. Graphene is emerging as a promising material for neuro-interfacing applications, given its outstanding physico-chemical properties. Here, we use graphene-based substrates (GBSs) to interface neuronal growth. We test our GBSs on brain cell cultures by measuring functional and synaptic integrity of the emerging neuronal networks. We show that GBSs are permissive interfaces, even when uncoated by cell adhesion layers, retaining unaltered neuronal signaling properties, thus being suitable for carbon-based neural prosthetic devices.Entities:
Keywords: graphene; hippocampal cultures; liquid phase exfoliation; neuronal interfaces; patch clamp; synaptic networks
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Year: 2016 PMID: 26700626 DOI: 10.1021/acsnano.5b05647
Source DB: PubMed Journal: ACS Nano ISSN: 1936-0851 Impact factor: 15.881