Spurious but systematic correlations in functional connectivity MRI networks arise from subject motion

Here, we demonstrate that subject motion produces substantial changes in the timecourses of resting state functional connectivity MRI (rs-fcMRI) data despite compensatory spatial registration and regression of motion estimates from the data. These changes cause systematic but spurious correlation st...

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Published inNeuroImage (Orlando, Fla.) Vol. 59; no. 3; pp. 2142 - 2154
Main Authors Power, Jonathan D., Barnes, Kelly A., Snyder, Abraham Z., Schlaggar, Bradley L., Petersen, Steven E.
Format Journal Article
LanguageEnglish
Published United States Elsevier Inc 01.02.2012
Elsevier Limited
Subjects
Algorithms
Brain
Brain - anatomy & histology
Cohort Studies
Computer programs
Correlation
Dealing
Estimates
fcMRI
fMRI
Head Movements
Humans
Image Processing, Computer-Assisted - methods
Magnetic Resonance Imaging - instrumentation
Magnetic Resonance Imaging - methods
Motion
Movement
Movements
Network
Noise
Oxygen - blood
Platforms
Regression
Resting state
Software
Statistics
fMRI
Motion
Resting state
Movement
Noise
Network
fcMRI
Artifact
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Abstract Here, we demonstrate that subject motion produces substantial changes in the timecourses of resting state functional connectivity MRI (rs-fcMRI) data despite compensatory spatial registration and regression of motion estimates from the data. These changes cause systematic but spurious correlation structures throughout the brain. Specifically, many long-distance correlations are decreased by subject motion, whereas many short-distance correlations are increased. These changes in rs-fcMRI correlations do not arise from, nor are they adequately countered by, some common functional connectivity processing steps. Two indices of data quality are proposed, and a simple method to reduce motion-related effects in rs-fcMRI analyses is demonstrated that should be flexibly implementable across a variety of software platforms. We demonstrate how application of this technique impacts our own data, modifying previous conclusions about brain development. These results suggest the need for greater care in dealing with subject motion, and the need to critically revisit previous rs-fcMRI work that may not have adequately controlled for effects of transient subject movements. ► Large changes in rs-fcMRI timecourses coincide with motion despite motion regression. ► Motion increases short-distance correlations and decreases long-distance correlations. ► Motion artifacts do not arise from, and are not fully countered by, motion regressions. ► Framewise indices of data quality and methods to remove motion artifact are proposed.
AbstractList Here, we demonstrate that subject motion produces substantial changes in the timecourses of resting state functional connectivity MRI (rs-fcMRI) data despite compensatory spatial registration and regression of motion estimates from the data. These changes cause systematic but spurious correlation structures throughout the brain. Specifically, many long-distance correlations are decreased by subject motion, whereas many short-distance correlations are increased. These changes in rs-fcMRI correlations do not arise from, nor are they adequately countered by, some common functional connectivity processing steps. Two indices of data quality are proposed, and a simple method to reduce motion-related effects in rs-fcMRI analyses is demonstrated that should be flexibly implementable across a variety of software platforms. We demonstrate how application of this technique impacts our own data, modifying previous conclusions about brain development. These results suggest the need for greater care in dealing with subject motion, and the need to critically revisit previous rs-fcMRI work that may not have adequately controlled for effects of transient subject movements. ► Large changes in rs-fcMRI timecourses coincide with motion despite motion regression. ► Motion increases short-distance correlations and decreases long-distance correlations. ► Motion artifacts do not arise from, and are not fully countered by, motion regressions. ► Framewise indices of data quality and methods to remove motion artifact are proposed.
Here, we demonstrate that subject motion produces substantial changes in the timecourses of resting state functional connectivity MRI (rs-fcMRI) data despite compensatory spatial registration and regression of motion estimates from the data. These changes cause systematic but spurious correlation structures throughout the brain. Specifically, many long-distance correlations are decreased by subject motion, whereas many short-distance correlations are increased. These changes in rs-fcMRI correlations do not arise from, nor are they adequately countered by, some common functional connectivity processing steps. Two indices of data quality are proposed, and a simple method to reduce motion-related effects in rs-fcMRI analyses is demonstrated that should be flexibly implementable across a variety of software platforms. We demonstrate how application of this technique impacts our own data, modifying previous conclusions about brain development. These results suggest the need for greater care in dealing with subject motion, and the need to critically revisit previous rs-fcMRI work that may not have adequately controlled for effects of transient subject movements.
Here, we demonstrate that subject motion produces substantial changes in the timecourses of resting state functional connectivity MRI (rs-fcMRI) data despite compensatory spatial registration and regression of motion estimates from the data. These changes cause systematic but spurious correlation structures throughout the brain. Specifically, many long-distance correlations are decreased by subject motion, whereas many short-distance correlations are increased. These changes in rs-fcMRI correlations do not arise from, nor are they adequately countered by, some common functional connectivity processing steps. Two indices of data quality are proposed, and a simple method to reduce motion-related effects in rs-fcMRI analyses is demonstrated that should be flexibly implementable across a variety of software platforms. We demonstrate how application of this technique impacts our own data, modifying previous conclusions about brain development. These results suggest the need for greater care in dealing with subject motion, and the need to critically revisit previous rs-fcMRI work that may not have adequately controlled for effects of transient subject movements.Here, we demonstrate that subject motion produces substantial changes in the timecourses of resting state functional connectivity MRI (rs-fcMRI) data despite compensatory spatial registration and regression of motion estimates from the data. These changes cause systematic but spurious correlation structures throughout the brain. Specifically, many long-distance correlations are decreased by subject motion, whereas many short-distance correlations are increased. These changes in rs-fcMRI correlations do not arise from, nor are they adequately countered by, some common functional connectivity processing steps. Two indices of data quality are proposed, and a simple method to reduce motion-related effects in rs-fcMRI analyses is demonstrated that should be flexibly implementable across a variety of software platforms. We demonstrate how application of this technique impacts our own data, modifying previous conclusions about brain development. These results suggest the need for greater care in dealing with subject motion, and the need to critically revisit previous rs-fcMRI work that may not have adequately controlled for effects of transient subject movements.
Author Barnes, Kelly A.
Snyder, Abraham Z.
Power, Jonathan D.
Schlaggar, Bradley L.
Petersen, Steven E.
AuthorAffiliation a Dept. of Neurology, Washington University School of Medicine
c Dept. of Pediatrics, Washington University School of Medicine
b Dept. of Radiology, Washington University School of Medicine
d Dept. of Anatomy & Neurobiology, Washington University School of Medicine
e Dept. of Psychology, Washington University in Saint Louis
AuthorAffiliation_xml – name: a Dept. of Neurology, Washington University School of Medicine
– name: c Dept. of Pediatrics, Washington University School of Medicine
– name: d Dept. of Anatomy & Neurobiology, Washington University School of Medicine
– name: e Dept. of Psychology, Washington University in Saint Louis
– name: b Dept. of Radiology, Washington University School of Medicine
Author_xml – sequence: 1
  givenname: Jonathan D.
  surname: Power
  fullname: Power, Jonathan D.
  email: powerj@wusm.wustl.edu
  organization: Department of Neurology, Washington University School of Medicine, St. Louis, MO, USA
– sequence: 2
  givenname: Kelly A.
  surname: Barnes
  fullname: Barnes, Kelly A.
  email: kelly.barnes@nih.gov
  organization: Department of Neurology, Washington University School of Medicine, St. Louis, MO, USA
– sequence: 3
  givenname: Abraham Z.
  surname: Snyder
  fullname: Snyder, Abraham Z.
  email: avi@npg.wustl.edu
  organization: Department of Neurology, Washington University School of Medicine, St. Louis, MO, USA
– sequence: 4
  givenname: Bradley L.
  surname: Schlaggar
  fullname: Schlaggar, Bradley L.
  email: schlaggarb@neuro.wustl.edu
  organization: Department of Neurology, Washington University School of Medicine, St. Louis, MO, USA
– sequence: 5
  givenname: Steven E.
  surname: Petersen
  fullname: Petersen, Steven E.
  email: sep@npg.wustl.edu
  organization: Department of Neurology, Washington University School of Medicine, St. Louis, MO, USA
BackLink https://www.ncbi.nlm.nih.gov/pubmed/22019881$$D View this record in MEDLINE/PubMed
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2011 Elsevier Inc. All rights reserved. 2011
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Issue 3
Keywords fMRI
Motion
Resting state
Movement
Noise
Network
fcMRI
Artifact
Language English
License Copyright © 2011 Elsevier Inc. All rights reserved.
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Bradley Schlaggar: schlaggarb@neuro.wustl.edu
Avi Snyder: avi@npg.wustl.edu
Jonathan Power: powerj@wusm.wustl.edu
Kelly Barnes: kelly.barnes@nih.gov
Steve Petersen: sep@npg.wustl.edu
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Snippet Here, we demonstrate that subject motion produces substantial changes in the timecourses of resting state functional connectivity MRI (rs-fcMRI) data despite...
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SubjectTerms Algorithms
Brain
Brain - anatomy & histology
Cohort Studies
Computer programs
Correlation
Dealing
Estimates
fcMRI
fMRI
Head Movements
Humans
Image Processing, Computer-Assisted - methods
Magnetic Resonance Imaging - instrumentation
Magnetic Resonance Imaging - methods
Motion
Movement
Movements
Network
Noise
Oxygen - blood
Platforms
Regression
Resting state
Software
Statistics
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Title Spurious but systematic correlations in functional connectivity MRI networks arise from subject motion
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