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Effective Preprocessing Procedures Virtually Eliminate Distance-Dependent Motion Artifacts in Resting State FMRI

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  • Hang Joon Jo
  • Stephen J. Gotts
  • Richard C. Reynolds
  • Peter A. Bandettini
  • Alex Martin
  • Robert W. Cox
  • Ziad S. Saad

Abstract

Artifactual sources of resting-state (RS) FMRI can originate from head motion, physiology, and hardware. Of these sources, motion has received considerable attention and was found to induce corrupting effects by differentially biasing correlations between regions depending on their distance. Numerous corrective approaches have relied on the identification and censoring of high-motion time points and the use of the brain-wide average time series as a nuisance regressor to which the data are orthogonalized (Global Signal Regression, GSReg). We replicate the previously reported head-motion bias on correlation coefficients and then show that while motion can be the source of artifact in correlations, the distance-dependent bias is exacerbated by GSReg. Put differently, correlation estimates obtained after GSReg are more susceptible to the presence of motion and by extension to the levels of censoring. More generally, the effect of motion on correlation estimates depends on the preprocessing steps leading to the correlation estimate, with certain approaches performing markedly worse than others. For this purpose, we consider various models for RS FMRI preprocessing and show that the local white matter regressor (WMe LOCAL ), a subset of ANATICOR, results in minimal sensitivity to motion and reduces by extension the dependence of correlation results on censoring.

Suggested Citation

  • Hang Joon Jo & Stephen J. Gotts & Richard C. Reynolds & Peter A. Bandettini & Alex Martin & Robert W. Cox & Ziad S. Saad, 2013. "Effective Preprocessing Procedures Virtually Eliminate Distance-Dependent Motion Artifacts in Resting State FMRI," Journal of Applied Mathematics, Hindawi, vol. 2013, pages 1-9, June.
    • Handle: RePEc:hin:jnljam:935154
    DOI: 10.1155/2013/935154
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    Cited by:

    1. Jonathan D Power & Mark Plitt & Prantik Kundu & Peter A Bandettini & Alex Martin, 2017. "Temporal interpolation alters motion in fMRI scans: Magnitudes and consequences for artifact detection," PLOS ONE, Public Library of Science, vol. 12(9), pages 1-20, September.
    2. Rachel H Jacobs & Lisanne M Jenkins & Laura B Gabriel & Alyssa Barba & Kelly A Ryan & Sara L Weisenbach & Alvaro Verges & Amanda M Baker & Amy T Peters & Natania A Crane & Ian H Gotlib & Jon-Kar Zubie, 2014. "Increased Coupling of Intrinsic Networks in Remitted Depressed Youth Predicts Rumination and Cognitive Control," PLOS ONE, Public Library of Science, vol. 9(8), pages 1-11, August.

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