Medial temporal lobe functional connectivity predicts stimulation-induced theta power

Direct electrical brain stimulation can induce widespread changes in neural activity, offering a means to modulate network-wide activity and treat disease. Here, the authors show that the low-frequency functional connectivity profile of a stimulation target predicts where induced theta activity occu...

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Autores principales: E. A. Solomon, J. E. Kragel, R. Gross, B. Lega, M. R. Sperling, G. Worrell, S. A. Sheth, K. A. Zaghloul, B. C. Jobst, J. M. Stein, S. Das, R. Gorniak, C. S. Inman, S. Seger, D. S. Rizzuto, M. J. Kahana
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Lenguaje:EN
Publicado: Nature Portfolio 2018
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Acceso en línea:https://doaj.org/article/dd1fc59ffe0046a889ecf8bc56df0263
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spelling oai:doaj.org-article:dd1fc59ffe0046a889ecf8bc56df02632021-12-02T17:31:44ZMedial temporal lobe functional connectivity predicts stimulation-induced theta power10.1038/s41467-018-06876-w2041-1723https://doaj.org/article/dd1fc59ffe0046a889ecf8bc56df02632018-10-01T00:00:00Zhttps://doi.org/10.1038/s41467-018-06876-whttps://doaj.org/toc/2041-1723Direct electrical brain stimulation can induce widespread changes in neural activity, offering a means to modulate network-wide activity and treat disease. Here, the authors show that the low-frequency functional connectivity profile of a stimulation target predicts where induced theta activity occurs.E. A. SolomonJ. E. KragelR. GrossB. LegaM. R. SperlingG. WorrellS. A. ShethK. A. ZaghloulB. C. JobstJ. M. SteinS. DasR. GorniakC. S. InmanS. SegerD. S. RizzutoM. J. KahanaNature PortfolioarticleScienceQENNature Communications, Vol 9, Iss 1, Pp 1-13 (2018)
institution DOAJ
collection DOAJ
language EN
topic Science
Q
spellingShingle Science
Q
E. A. Solomon
J. E. Kragel
R. Gross
B. Lega
M. R. Sperling
G. Worrell
S. A. Sheth
K. A. Zaghloul
B. C. Jobst
J. M. Stein
S. Das
R. Gorniak
C. S. Inman
S. Seger
D. S. Rizzuto
M. J. Kahana
Medial temporal lobe functional connectivity predicts stimulation-induced theta power
description Direct electrical brain stimulation can induce widespread changes in neural activity, offering a means to modulate network-wide activity and treat disease. Here, the authors show that the low-frequency functional connectivity profile of a stimulation target predicts where induced theta activity occurs.
format article
author E. A. Solomon
J. E. Kragel
R. Gross
B. Lega
M. R. Sperling
G. Worrell
S. A. Sheth
K. A. Zaghloul
B. C. Jobst
J. M. Stein
S. Das
R. Gorniak
C. S. Inman
S. Seger
D. S. Rizzuto
M. J. Kahana
author_facet E. A. Solomon
J. E. Kragel
R. Gross
B. Lega
M. R. Sperling
G. Worrell
S. A. Sheth
K. A. Zaghloul
B. C. Jobst
J. M. Stein
S. Das
R. Gorniak
C. S. Inman
S. Seger
D. S. Rizzuto
M. J. Kahana
author_sort E. A. Solomon
title Medial temporal lobe functional connectivity predicts stimulation-induced theta power
title_short Medial temporal lobe functional connectivity predicts stimulation-induced theta power
title_full Medial temporal lobe functional connectivity predicts stimulation-induced theta power
title_fullStr Medial temporal lobe functional connectivity predicts stimulation-induced theta power
title_full_unstemmed Medial temporal lobe functional connectivity predicts stimulation-induced theta power
title_sort medial temporal lobe functional connectivity predicts stimulation-induced theta power
publisher Nature Portfolio
publishDate 2018
url https://doaj.org/article/dd1fc59ffe0046a889ecf8bc56df0263
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