Multimodal in vivo recording using transparent graphene microelectrodes illuminates spatiotemporal seizure dynamics at the microscale

Driscoll, Rosch et al. design transparent graphene-based surface probes to achieve simultaneous electrophysiological recording and calcium imaging of epileptic seizures in mice. This method could be used to investigate circuit dynamics during seizure onset and evolution with high temporal and spatia...

Descripción completa

Guardado en:
Detalles Bibliográficos
Autores principales: Nicolette Driscoll, Richard E. Rosch, Brendan B. Murphy, Arian Ashourvan, Ramya Vishnubhotla, Olivia O. Dickens, A. T. Charlie Johnson, Kathryn A. Davis, Brian Litt, Danielle S. Bassett, Hajime Takano, Flavia Vitale
Formato: article
Lenguaje:EN
Publicado: Nature Portfolio 2021
Materias:
Acceso en línea:https://doaj.org/article/f932d6cf433744e78a90d1a0559256c2
Etiquetas: Agregar Etiqueta
Sin Etiquetas, Sea el primero en etiquetar este registro!
id oai:doaj.org-article:f932d6cf433744e78a90d1a0559256c2
record_format dspace
spelling oai:doaj.org-article:f932d6cf433744e78a90d1a0559256c22021-12-02T10:47:53ZMultimodal in vivo recording using transparent graphene microelectrodes illuminates spatiotemporal seizure dynamics at the microscale10.1038/s42003-021-01670-92399-3642https://doaj.org/article/f932d6cf433744e78a90d1a0559256c22021-01-01T00:00:00Zhttps://doi.org/10.1038/s42003-021-01670-9https://doaj.org/toc/2399-3642Driscoll, Rosch et al. design transparent graphene-based surface probes to achieve simultaneous electrophysiological recording and calcium imaging of epileptic seizures in mice. This method could be used to investigate circuit dynamics during seizure onset and evolution with high temporal and spatial resolution.Nicolette DriscollRichard E. RoschBrendan B. MurphyArian AshourvanRamya VishnubhotlaOlivia O. DickensA. T. Charlie JohnsonKathryn A. DavisBrian LittDanielle S. BassettHajime TakanoFlavia VitaleNature PortfolioarticleBiology (General)QH301-705.5ENCommunications Biology, Vol 4, Iss 1, Pp 1-14 (2021)
institution DOAJ
collection DOAJ
language EN
topic Biology (General)
QH301-705.5
spellingShingle Biology (General)
QH301-705.5
Nicolette Driscoll
Richard E. Rosch
Brendan B. Murphy
Arian Ashourvan
Ramya Vishnubhotla
Olivia O. Dickens
A. T. Charlie Johnson
Kathryn A. Davis
Brian Litt
Danielle S. Bassett
Hajime Takano
Flavia Vitale
Multimodal in vivo recording using transparent graphene microelectrodes illuminates spatiotemporal seizure dynamics at the microscale
description Driscoll, Rosch et al. design transparent graphene-based surface probes to achieve simultaneous electrophysiological recording and calcium imaging of epileptic seizures in mice. This method could be used to investigate circuit dynamics during seizure onset and evolution with high temporal and spatial resolution.
format article
author Nicolette Driscoll
Richard E. Rosch
Brendan B. Murphy
Arian Ashourvan
Ramya Vishnubhotla
Olivia O. Dickens
A. T. Charlie Johnson
Kathryn A. Davis
Brian Litt
Danielle S. Bassett
Hajime Takano
Flavia Vitale
author_facet Nicolette Driscoll
Richard E. Rosch
Brendan B. Murphy
Arian Ashourvan
Ramya Vishnubhotla
Olivia O. Dickens
A. T. Charlie Johnson
Kathryn A. Davis
Brian Litt
Danielle S. Bassett
Hajime Takano
Flavia Vitale
author_sort Nicolette Driscoll
title Multimodal in vivo recording using transparent graphene microelectrodes illuminates spatiotemporal seizure dynamics at the microscale
title_short Multimodal in vivo recording using transparent graphene microelectrodes illuminates spatiotemporal seizure dynamics at the microscale
title_full Multimodal in vivo recording using transparent graphene microelectrodes illuminates spatiotemporal seizure dynamics at the microscale
title_fullStr Multimodal in vivo recording using transparent graphene microelectrodes illuminates spatiotemporal seizure dynamics at the microscale
title_full_unstemmed Multimodal in vivo recording using transparent graphene microelectrodes illuminates spatiotemporal seizure dynamics at the microscale
title_sort multimodal in vivo recording using transparent graphene microelectrodes illuminates spatiotemporal seizure dynamics at the microscale
publisher Nature Portfolio
publishDate 2021
url https://doaj.org/article/f932d6cf433744e78a90d1a0559256c2
work_keys_str_mv AT nicolettedriscoll multimodalinvivorecordingusingtransparentgraphenemicroelectrodesilluminatesspatiotemporalseizuredynamicsatthemicroscale
AT richarderosch multimodalinvivorecordingusingtransparentgraphenemicroelectrodesilluminatesspatiotemporalseizuredynamicsatthemicroscale
AT brendanbmurphy multimodalinvivorecordingusingtransparentgraphenemicroelectrodesilluminatesspatiotemporalseizuredynamicsatthemicroscale
AT arianashourvan multimodalinvivorecordingusingtransparentgraphenemicroelectrodesilluminatesspatiotemporalseizuredynamicsatthemicroscale
AT ramyavishnubhotla multimodalinvivorecordingusingtransparentgraphenemicroelectrodesilluminatesspatiotemporalseizuredynamicsatthemicroscale
AT oliviaodickens multimodalinvivorecordingusingtransparentgraphenemicroelectrodesilluminatesspatiotemporalseizuredynamicsatthemicroscale
AT atcharliejohnson multimodalinvivorecordingusingtransparentgraphenemicroelectrodesilluminatesspatiotemporalseizuredynamicsatthemicroscale
AT kathrynadavis multimodalinvivorecordingusingtransparentgraphenemicroelectrodesilluminatesspatiotemporalseizuredynamicsatthemicroscale
AT brianlitt multimodalinvivorecordingusingtransparentgraphenemicroelectrodesilluminatesspatiotemporalseizuredynamicsatthemicroscale
AT daniellesbassett multimodalinvivorecordingusingtransparentgraphenemicroelectrodesilluminatesspatiotemporalseizuredynamicsatthemicroscale
AT hajimetakano multimodalinvivorecordingusingtransparentgraphenemicroelectrodesilluminatesspatiotemporalseizuredynamicsatthemicroscale
AT flaviavitale multimodalinvivorecordingusingtransparentgraphenemicroelectrodesilluminatesspatiotemporalseizuredynamicsatthemicroscale
_version_ 1718396743738982400