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Intersubject MVPD: Empirical comparison of fMRI denoising methods for connectivity analysis

Noise is a major challenge for the analysis of fMRI data in general and for connectivity analyses in particular. As researchers develop increasingly sophisticated tools to model statistical dependence between the fMRI signal in different brain regions, there is a risk that these models may increasin...

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Autores principales: Li, Yichen, Saxe, Rebecca, Anzellotti, Stefano
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Public Library of Science 2019
Materias:
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6759145/
https://www.ncbi.nlm.nih.gov/pubmed/31550276
http://dx.doi.org/10.1371/journal.pone.0222914
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author Li, Yichen
Saxe, Rebecca
Anzellotti, Stefano
author_facet Li, Yichen
Saxe, Rebecca
Anzellotti, Stefano
author_sort Li, Yichen
collection PubMed
description Noise is a major challenge for the analysis of fMRI data in general and for connectivity analyses in particular. As researchers develop increasingly sophisticated tools to model statistical dependence between the fMRI signal in different brain regions, there is a risk that these models may increasingly capture artifactual relationships between regions, that are the result of noise. Thus, choosing optimal denoising methods is a crucial step to maximize the accuracy and reproducibility of connectivity models. Most comparisons between denoising methods require knowledge of the ground truth: of what is the ‘real signal’. For this reason, they are usually based on simulated fMRI data. However, simulated data may not match the statistical properties of real data, limiting the generalizability of the conclusions. In this article, we propose an approach to evaluate denoising methods using real (non-simulated) fMRI data. First, we introduce an intersubject version of multivariate pattern dependence (iMVPD) that computes the statistical dependence between a brain region in one participant, and another brain region in a different participant. iMVPD has the following advantages: 1) it is multivariate, 2) it trains and tests models on independent partitions of the real fMRI data, and 3) it generates predictions that are both between subjects and between regions. Since whole-brain sources of noise are more strongly correlated within subject than between subjects, we can use the difference between standard MVPD and iMVPD as a ‘discrepancy metric’ to evaluate denoising techniques (where more effective techniques should yield smaller differences). As predicted, the difference is the greatest in the absence of denoising methods. Furthermore, a combination of removal of the global signal and CompCorr optimizes denoising (among the set of denoising options tested).
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spelling pubmed-67591452019-10-04 Intersubject MVPD: Empirical comparison of fMRI denoising methods for connectivity analysis Li, Yichen Saxe, Rebecca Anzellotti, Stefano PLoS One Research Article Noise is a major challenge for the analysis of fMRI data in general and for connectivity analyses in particular. As researchers develop increasingly sophisticated tools to model statistical dependence between the fMRI signal in different brain regions, there is a risk that these models may increasingly capture artifactual relationships between regions, that are the result of noise. Thus, choosing optimal denoising methods is a crucial step to maximize the accuracy and reproducibility of connectivity models. Most comparisons between denoising methods require knowledge of the ground truth: of what is the ‘real signal’. For this reason, they are usually based on simulated fMRI data. However, simulated data may not match the statistical properties of real data, limiting the generalizability of the conclusions. In this article, we propose an approach to evaluate denoising methods using real (non-simulated) fMRI data. First, we introduce an intersubject version of multivariate pattern dependence (iMVPD) that computes the statistical dependence between a brain region in one participant, and another brain region in a different participant. iMVPD has the following advantages: 1) it is multivariate, 2) it trains and tests models on independent partitions of the real fMRI data, and 3) it generates predictions that are both between subjects and between regions. Since whole-brain sources of noise are more strongly correlated within subject than between subjects, we can use the difference between standard MVPD and iMVPD as a ‘discrepancy metric’ to evaluate denoising techniques (where more effective techniques should yield smaller differences). As predicted, the difference is the greatest in the absence of denoising methods. Furthermore, a combination of removal of the global signal and CompCorr optimizes denoising (among the set of denoising options tested). Public Library of Science 2019-09-24 /pmc/articles/PMC6759145/ /pubmed/31550276 http://dx.doi.org/10.1371/journal.pone.0222914 Text en © 2019 Li et al http://creativecommons.org/licenses/by/4.0/ This is an open access article distributed under the terms of the Creative Commons Attribution License (http://creativecommons.org/licenses/by/4.0/) , which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.
spellingShingle Research Article
Li, Yichen
Saxe, Rebecca
Anzellotti, Stefano
Intersubject MVPD: Empirical comparison of fMRI denoising methods for connectivity analysis
title Intersubject MVPD: Empirical comparison of fMRI denoising methods for connectivity analysis
title_full Intersubject MVPD: Empirical comparison of fMRI denoising methods for connectivity analysis
title_fullStr Intersubject MVPD: Empirical comparison of fMRI denoising methods for connectivity analysis
title_full_unstemmed Intersubject MVPD: Empirical comparison of fMRI denoising methods for connectivity analysis
title_short Intersubject MVPD: Empirical comparison of fMRI denoising methods for connectivity analysis
title_sort intersubject mvpd: empirical comparison of fmri denoising methods for connectivity analysis
topic Research Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6759145/
https://www.ncbi.nlm.nih.gov/pubmed/31550276
http://dx.doi.org/10.1371/journal.pone.0222914
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AT anzellottistefano intersubjectmvpdempiricalcomparisonoffmridenoisingmethodsforconnectivityanalysis