Spatial and Temporal Organization of the Individual Human Cerebellum

Scott Marek; Joshua S. Siegel; Evan M. Gordon; Ryan V. Raut; Caterina Gratton; Dillan J. Newbold; Mario Ortega; Timothy O. Laumann; Babatunde Adeyemo; Derek B. Miller; Annie Zheng; Katherine C. Lopez; Jeffrey J. Berg; Rebecca S. Coalson; Annie L. Nguyen; Donna Dierker; Andrew N. Van; Catherine R. Hoyt; Kathleen B. McDermott; Scott A. Norris; Joshua S. Shimony; Abraham Z. Snyder; Steven M. Nelson; Deanna M. Barch; Bradley L. Schlaggar; Marcus E. Raichle; Steven E. Petersen; Deanna J. Greene; Nico U.F. Dosenbach

doi:10.1016/j.neuron.2018.10.010

Spatial and Temporal Organization of the Individual Human Cerebellum

Scott Marek, Joshua S. Siegel, Evan M. Gordon, Ryan V. Raut, Caterina Gratton, Dillan J. Newbold, Mario Ortega, Timothy O. Laumann, Babatunde Adeyemo, Derek B. Miller, Annie Zheng, Katherine C. Lopez, Jeffrey J. Berg, Rebecca S. Coalson, Annie L. Nguyen, Donna Dierker, Andrew N. Van, Catherine R. Hoyt, Kathleen B. McDermott, Scott A. NorrisJoshua S. Shimony, Abraham Z. Snyder, Steven M. Nelson, Deanna M. Barch, Bradley L. Schlaggar, Marcus E. Raichle, Steven E. Petersen, Deanna J. Greene, Nico U.F. Dosenbach

Research output: Contribution to journal › Article › peer-review

Abstract

Cerebellar functional networks are topographically individual-specific. Cerebellar intrinsic fMRI signals lag those in cortex by 100–400 ms. The frontoparietal control network is greatly overrepresented (>2-fold), suggesting that the cerebellum is important for the adaptive control of the brain's cognitive processes.

Original language	English (US)
Pages (from-to)	977-993.e7
Journal	Neuron
Volume	100
Issue number	4
DOIs	https://doi.org/10.1016/j.neuron.2018.10.010
State	Published - Nov 21 2018
Externally published	Yes

Keywords

fMRI
frontoparietal network
functional networks
human cerebellum
individual variability
resting state functional connectivity
temporal lags

ASJC Scopus subject areas

General Neuroscience

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10.1016/j.neuron.2018.10.010

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Marek, S., Siegel, J. S., Gordon, E. M., Raut, R. V., Gratton, C., Newbold, D. J., Ortega, M., Laumann, T. O., Adeyemo, B., Miller, D. B., Zheng, A., Lopez, K. C., Berg, J. J., Coalson, R. S., Nguyen, A. L., Dierker, D., Van, A. N., Hoyt, C. R., McDermott, K. B., ... Dosenbach, N. U. F. (2018). Spatial and Temporal Organization of the Individual Human Cerebellum. Neuron, 100(4), 977-993.e7. https://doi.org/10.1016/j.neuron.2018.10.010

Marek, S, Siegel, JS, Gordon, EM, Raut, RV, Gratton, C, Newbold, DJ, Ortega, M, Laumann, TO, Adeyemo, B, Miller, DB, Zheng, A, Lopez, KC, Berg, JJ, Coalson, RS, Nguyen, AL, Dierker, D, Van, AN, Hoyt, CR, McDermott, KB, Norris, SA, Shimony, JS, Snyder, AZ, Nelson, SM, Barch, DM, Schlaggar, BL, Raichle, ME, Petersen, SE, Greene, DJ & Dosenbach, NUF 2018, 'Spatial and Temporal Organization of the Individual Human Cerebellum', Neuron, vol. 100, no. 4, pp. 977-993.e7. https://doi.org/10.1016/j.neuron.2018.10.010

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title = "Spatial and Temporal Organization of the Individual Human Cerebellum",

abstract = "Cerebellar functional networks are topographically individual-specific. Cerebellar intrinsic fMRI signals lag those in cortex by 100–400 ms. The frontoparietal control network is greatly overrepresented (>2-fold), suggesting that the cerebellum is important for the adaptive control of the brain's cognitive processes.",

keywords = "fMRI, frontoparietal network, functional networks, human cerebellum, individual variability, resting state functional connectivity, temporal lags",

author = "Scott Marek and Siegel, {Joshua S.} and Gordon, {Evan M.} and Raut, {Ryan V.} and Caterina Gratton and Newbold, {Dillan J.} and Mario Ortega and Laumann, {Timothy O.} and Babatunde Adeyemo and Miller, {Derek B.} and Annie Zheng and Lopez, {Katherine C.} and Berg, {Jeffrey J.} and Coalson, {Rebecca S.} and Nguyen, {Annie L.} and Donna Dierker and Van, {Andrew N.} and Hoyt, {Catherine R.} and McDermott, {Kathleen B.} and Norris, {Scott A.} and Shimony, {Joshua S.} and Snyder, {Abraham Z.} and Nelson, {Steven M.} and Barch, {Deanna M.} and Schlaggar, {Bradley L.} and Raichle, {Marcus E.} and Petersen, {Steven E.} and Greene, {Deanna J.} and Dosenbach, {Nico U.F.}",

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year = "2018",

month = nov,

day = "21",

doi = "10.1016/j.neuron.2018.10.010",

language = "English (US)",

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AU - Marek, Scott

AU - Siegel, Joshua S.

AU - Gordon, Evan M.

AU - Raut, Ryan V.

AU - Gratton, Caterina

AU - Newbold, Dillan J.

AU - Ortega, Mario

AU - Laumann, Timothy O.

AU - Adeyemo, Babatunde

AU - Miller, Derek B.

AU - Zheng, Annie

AU - Lopez, Katherine C.

AU - Berg, Jeffrey J.

AU - Coalson, Rebecca S.

AU - Nguyen, Annie L.

AU - Dierker, Donna

AU - Van, Andrew N.

AU - Hoyt, Catherine R.

AU - McDermott, Kathleen B.

AU - Norris, Scott A.

AU - Shimony, Joshua S.

AU - Snyder, Abraham Z.

AU - Nelson, Steven M.

AU - Barch, Deanna M.

AU - Schlaggar, Bradley L.

AU - Raichle, Marcus E.

AU - Petersen, Steven E.

AU - Greene, Deanna J.

AU - Dosenbach, Nico U.F.

PY - 2018/11/21

Y1 - 2018/11/21

N2 - Cerebellar functional networks are topographically individual-specific. Cerebellar intrinsic fMRI signals lag those in cortex by 100–400 ms. The frontoparietal control network is greatly overrepresented (>2-fold), suggesting that the cerebellum is important for the adaptive control of the brain's cognitive processes.

AB - Cerebellar functional networks are topographically individual-specific. Cerebellar intrinsic fMRI signals lag those in cortex by 100–400 ms. The frontoparietal control network is greatly overrepresented (>2-fold), suggesting that the cerebellum is important for the adaptive control of the brain's cognitive processes.

KW - fMRI

KW - frontoparietal network

KW - functional networks

KW - human cerebellum

KW - individual variability

KW - resting state functional connectivity

KW - temporal lags

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ER -

Spatial and Temporal Organization of the Individual Human Cerebellum

Abstract

Keywords

ASJC Scopus subject areas

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