Direct effects of transcranial electric stimulation on brain circuits in rats and humans

Though transcranial electric stimulation has been used to influence brain activity, it is debated whether neuronal spiking activity is directly affected by commonly-used protocols. Here, the authors quantify the voltage gradients necessary to instantaneously affect neuronal spiking and show that the...

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Autores principales: Mihály Vöröslakos, Yuichi Takeuchi, Kitti Brinyiczki, Tamás Zombori, Azahara Oliva, Antonio Fernández-Ruiz, Gábor Kozák, Zsigmond Tamás Kincses, Béla Iványi, György Buzsáki, Antal Berényi
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Lenguaje:EN
Publicado: Nature Portfolio 2018
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Acceso en línea:https://doaj.org/article/ed3266c85ab64481997b7915deee0659
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spelling oai:doaj.org-article:ed3266c85ab64481997b7915deee06592021-12-02T15:34:25ZDirect effects of transcranial electric stimulation on brain circuits in rats and humans10.1038/s41467-018-02928-32041-1723https://doaj.org/article/ed3266c85ab64481997b7915deee06592018-02-01T00:00:00Zhttps://doi.org/10.1038/s41467-018-02928-3https://doaj.org/toc/2041-1723Though transcranial electric stimulation has been used to influence brain activity, it is debated whether neuronal spiking activity is directly affected by commonly-used protocols. Here, the authors quantify the voltage gradients necessary to instantaneously affect neuronal spiking and show that they are higher than commonly-used protocols.Mihály VöröslakosYuichi TakeuchiKitti BrinyiczkiTamás ZomboriAzahara OlivaAntonio Fernández-RuizGábor KozákZsigmond Tamás KincsesBéla IványiGyörgy BuzsákiAntal BerényiNature PortfolioarticleScienceQENNature Communications, Vol 9, Iss 1, Pp 1-17 (2018)
institution DOAJ
collection DOAJ
language EN
topic Science
Q
spellingShingle Science
Q
Mihály Vöröslakos
Yuichi Takeuchi
Kitti Brinyiczki
Tamás Zombori
Azahara Oliva
Antonio Fernández-Ruiz
Gábor Kozák
Zsigmond Tamás Kincses
Béla Iványi
György Buzsáki
Antal Berényi
Direct effects of transcranial electric stimulation on brain circuits in rats and humans
description Though transcranial electric stimulation has been used to influence brain activity, it is debated whether neuronal spiking activity is directly affected by commonly-used protocols. Here, the authors quantify the voltage gradients necessary to instantaneously affect neuronal spiking and show that they are higher than commonly-used protocols.
format article
author Mihály Vöröslakos
Yuichi Takeuchi
Kitti Brinyiczki
Tamás Zombori
Azahara Oliva
Antonio Fernández-Ruiz
Gábor Kozák
Zsigmond Tamás Kincses
Béla Iványi
György Buzsáki
Antal Berényi
author_facet Mihály Vöröslakos
Yuichi Takeuchi
Kitti Brinyiczki
Tamás Zombori
Azahara Oliva
Antonio Fernández-Ruiz
Gábor Kozák
Zsigmond Tamás Kincses
Béla Iványi
György Buzsáki
Antal Berényi
author_sort Mihály Vöröslakos
title Direct effects of transcranial electric stimulation on brain circuits in rats and humans
title_short Direct effects of transcranial electric stimulation on brain circuits in rats and humans
title_full Direct effects of transcranial electric stimulation on brain circuits in rats and humans
title_fullStr Direct effects of transcranial electric stimulation on brain circuits in rats and humans
title_full_unstemmed Direct effects of transcranial electric stimulation on brain circuits in rats and humans
title_sort direct effects of transcranial electric stimulation on brain circuits in rats and humans
publisher Nature Portfolio
publishDate 2018
url https://doaj.org/article/ed3266c85ab64481997b7915deee0659
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