Identifying reproducible individual differences in childhood functional brain networks: An ABCD study

Scott Marek; Brenden Tervo-Clemmens; Ashley N. Nielsen; Muriah D. Wheelock; Ryland L. Miller; Timothy O. Laumann; Eric Earl; William W. Foran; Michaela Cordova; Olivia Doyle; Anders Perrone; Oscar Miranda-Dominguez; Eric Feczko; Darrick Sturgeon; Alice Graham; Robert Hermosillo; Kathy Snider; Anthony Galassi; Bonnie J. Nagel; Sarah W.Feldstein Ewing; Adam T. Eggebrecht; Hugh Garavan; Anders M. Dale; Deanna J. Greene; Deanna M. Barch; Damien A. Fair; Beatriz Luna; Nico U.F. Dosenbach

doi:10.1016/j.dcn.2019.100706

Identifying reproducible individual differences in childhood functional brain networks: An ABCD study

Scott Marek, Brenden Tervo-Clemmens, Ashley N. Nielsen, Muriah D. Wheelock, Ryland L. Miller, Timothy O. Laumann, Eric Earl, William W. Foran, Michaela Cordova, Olivia Doyle, Anders Perrone, Oscar Miranda-Dominguez, Eric Feczko, Darrick Sturgeon, Alice Graham, Robert Hermosillo, Kathy Snider, Anthony Galassi, Bonnie J. Nagel, Sarah W.Feldstein EwingAdam T. Eggebrecht, Hugh Garavan, Anders M. Dale, Deanna J. Greene, Deanna M. Barch, Damien A. Fair, Beatriz Luna, Nico U.F. Dosenbach

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

62 Scopus citations

Abstract

The 21-site Adolescent Brain Cognitive Development (ABCD) study provides an unparalleled opportunity to characterize functional brain development via resting-state functional connectivity (RSFC) and to quantify relationships between RSFC and behavior. This multi-site data set includes potentially confounding sources of variance, such as differences between data collection sites and/or scanner manufacturers, in addition to those inherent to RSFC (e.g., head motion). The ABCD project provides a framework for characterizing and reproducing RSFC and RSFC-behavior associations, while quantifying the extent to which sources of variability bias RSFC estimates. We quantified RSFC and functional network architecture in 2,188 9-10-year old children from the ABCD study, segregated into demographically-matched discovery (N = 1,166) and replication datasets (N = 1,022). We found RSFC and network architecture to be highly reproducible across children. We did not observe strong effects of site; however, scanner manufacturer effects were large, reproducible, and followed a “short-to-long” association with distance between regions. Accounting for potential confounding variables, we replicated that RSFC between several higher-order networks was related to general cognition. In sum, we provide a framework for how to characterize RSFC-behavior relationships in a rigorous and reproducible manner using the ABCD dataset and other large multi-site projects.

Original language	English (US)
Article number	100706
Journal	Developmental Cognitive Neuroscience
Volume	40
DOIs	https://doi.org/10.1016/j.dcn.2019.100706
State	Published - Dec 2019

Keywords

ABCD
Cognitive ability
Development
Functional connectivity
Reproducibility
Resting state fMRI

ASJC Scopus subject areas

Cognitive Neuroscience

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10.1016/j.dcn.2019.100706

Cite this

Marek, S., Tervo-Clemmens, B., Nielsen, A. N., Wheelock, M. D., Miller, R. L., Laumann, T. O., Earl, E., Foran, W. W., Cordova, M., Doyle, O., Perrone, A., Miranda-Dominguez, O., Feczko, E., Sturgeon, D., Graham, A., Hermosillo, R., Snider, K., Galassi, A., Nagel, B. J., ... Dosenbach, N. U. F. (2019). Identifying reproducible individual differences in childhood functional brain networks: An ABCD study. Developmental Cognitive Neuroscience, 40, Article 100706. https://doi.org/10.1016/j.dcn.2019.100706

Marek, S, Tervo-Clemmens, B, Nielsen, AN, Wheelock, MD, Miller, RL, Laumann, TO, Earl, E, Foran, WW, Cordova, M, Doyle, O, Perrone, A, Miranda-Dominguez, O, Feczko, E, Sturgeon, D, Graham, A, Hermosillo, R, Snider, K, Galassi, A, Nagel, BJ, Ewing, SWF, Eggebrecht, AT, Garavan, H, Dale, AM, Greene, DJ, Barch, DM, Fair, DA, Luna, B & Dosenbach, NUF 2019, 'Identifying reproducible individual differences in childhood functional brain networks: An ABCD study', Developmental Cognitive Neuroscience, vol. 40, 100706. https://doi.org/10.1016/j.dcn.2019.100706

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title = "Identifying reproducible individual differences in childhood functional brain networks: An ABCD study",

abstract = "The 21-site Adolescent Brain Cognitive Development (ABCD) study provides an unparalleled opportunity to characterize functional brain development via resting-state functional connectivity (RSFC) and to quantify relationships between RSFC and behavior. This multi-site data set includes potentially confounding sources of variance, such as differences between data collection sites and/or scanner manufacturers, in addition to those inherent to RSFC (e.g., head motion). The ABCD project provides a framework for characterizing and reproducing RSFC and RSFC-behavior associations, while quantifying the extent to which sources of variability bias RSFC estimates. We quantified RSFC and functional network architecture in 2,188 9-10-year old children from the ABCD study, segregated into demographically-matched discovery (N = 1,166) and replication datasets (N = 1,022). We found RSFC and network architecture to be highly reproducible across children. We did not observe strong effects of site; however, scanner manufacturer effects were large, reproducible, and followed a “short-to-long” association with distance between regions. Accounting for potential confounding variables, we replicated that RSFC between several higher-order networks was related to general cognition. In sum, we provide a framework for how to characterize RSFC-behavior relationships in a rigorous and reproducible manner using the ABCD dataset and other large multi-site projects.",

keywords = "ABCD, Cognitive ability, Development, Functional connectivity, Reproducibility, Resting state fMRI",

author = "Scott Marek and Brenden Tervo-Clemmens and Nielsen, {Ashley N.} and Wheelock, {Muriah D.} and Miller, {Ryland L.} and Laumann, {Timothy O.} and Eric Earl and Foran, {William W.} and Michaela Cordova and Olivia Doyle and Anders Perrone and Oscar Miranda-Dominguez and Eric Feczko and Darrick Sturgeon and Alice Graham and Robert Hermosillo and Kathy Snider and Anthony Galassi and Nagel, {Bonnie J.} and Ewing, {Sarah W.Feldstein} and Eggebrecht, {Adam T.} and Hugh Garavan and Dale, {Anders M.} and Greene, {Deanna J.} and Barch, {Deanna M.} and Fair, {Damien A.} and Beatriz Luna and Dosenbach, {Nico U.F.}",

note = "Publisher Copyright: {\textcopyright} 2019 The Author(s)",

year = "2019",

month = dec,

doi = "10.1016/j.dcn.2019.100706",

language = "English (US)",

volume = "40",

journal = "Developmental Cognitive Neuroscience",

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T1 - Identifying reproducible individual differences in childhood functional brain networks

T2 - An ABCD study

AU - Marek, Scott

AU - Tervo-Clemmens, Brenden

AU - Nielsen, Ashley N.

AU - Wheelock, Muriah D.

AU - Miller, Ryland L.

AU - Laumann, Timothy O.

AU - Earl, Eric

AU - Foran, William W.

AU - Cordova, Michaela

AU - Doyle, Olivia

AU - Perrone, Anders

AU - Miranda-Dominguez, Oscar

AU - Feczko, Eric

AU - Sturgeon, Darrick

AU - Graham, Alice

AU - Hermosillo, Robert

AU - Snider, Kathy

AU - Galassi, Anthony

AU - Nagel, Bonnie J.

AU - Ewing, Sarah W.Feldstein

AU - Eggebrecht, Adam T.

AU - Garavan, Hugh

AU - Dale, Anders M.

AU - Greene, Deanna J.

AU - Barch, Deanna M.

AU - Fair, Damien A.

AU - Luna, Beatriz

AU - Dosenbach, Nico U.F.

PY - 2019/12

Y1 - 2019/12

N2 - The 21-site Adolescent Brain Cognitive Development (ABCD) study provides an unparalleled opportunity to characterize functional brain development via resting-state functional connectivity (RSFC) and to quantify relationships between RSFC and behavior. This multi-site data set includes potentially confounding sources of variance, such as differences between data collection sites and/or scanner manufacturers, in addition to those inherent to RSFC (e.g., head motion). The ABCD project provides a framework for characterizing and reproducing RSFC and RSFC-behavior associations, while quantifying the extent to which sources of variability bias RSFC estimates. We quantified RSFC and functional network architecture in 2,188 9-10-year old children from the ABCD study, segregated into demographically-matched discovery (N = 1,166) and replication datasets (N = 1,022). We found RSFC and network architecture to be highly reproducible across children. We did not observe strong effects of site; however, scanner manufacturer effects were large, reproducible, and followed a “short-to-long” association with distance between regions. Accounting for potential confounding variables, we replicated that RSFC between several higher-order networks was related to general cognition. In sum, we provide a framework for how to characterize RSFC-behavior relationships in a rigorous and reproducible manner using the ABCD dataset and other large multi-site projects.

AB - The 21-site Adolescent Brain Cognitive Development (ABCD) study provides an unparalleled opportunity to characterize functional brain development via resting-state functional connectivity (RSFC) and to quantify relationships between RSFC and behavior. This multi-site data set includes potentially confounding sources of variance, such as differences between data collection sites and/or scanner manufacturers, in addition to those inherent to RSFC (e.g., head motion). The ABCD project provides a framework for characterizing and reproducing RSFC and RSFC-behavior associations, while quantifying the extent to which sources of variability bias RSFC estimates. We quantified RSFC and functional network architecture in 2,188 9-10-year old children from the ABCD study, segregated into demographically-matched discovery (N = 1,166) and replication datasets (N = 1,022). We found RSFC and network architecture to be highly reproducible across children. We did not observe strong effects of site; however, scanner manufacturer effects were large, reproducible, and followed a “short-to-long” association with distance between regions. Accounting for potential confounding variables, we replicated that RSFC between several higher-order networks was related to general cognition. In sum, we provide a framework for how to characterize RSFC-behavior relationships in a rigorous and reproducible manner using the ABCD dataset and other large multi-site projects.

KW - ABCD

KW - Cognitive ability

KW - Development

KW - Functional connectivity

KW - Reproducibility

KW - Resting state fMRI

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SN - 1878-9293

VL - 40

JO - Developmental Cognitive Neuroscience

JF - Developmental Cognitive Neuroscience

M1 - 100706

ER -

Identifying reproducible individual differences in childhood functional brain networks: An ABCD study

Abstract

Keywords

ASJC Scopus subject areas

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