Test-Retest Reliability of the Default Mode Network in a Multi-Centric fMRI Study of Healthy Elderly: Effects of Data-Driven Physiological Noise Correction Techniques

Rocco Marchitelli; Ludovico Minati; Moira Marizzoni; Beatriz Bosch; David Bartres-Faz; Bernhard W. Mueller; Jens Wiltfang; Ute Fiedler; Luca Roccatagliata; Agnese Picco; Flavio Nobili; Oliver Blin; Stephanie Bombois; Renaud Lopes; Regis Bordet; Julien Sein; Jean-Philippe Ranjeva; Mira Didic; Helene Gros-Dagnac; Pierre Payoux; Giada Zoccatelli; Franco Alessandrini; Alberto Beltramello; Nuria Bargallo; Antonio Ferretti; Massimo Caulo; Marco Aiello; Carlo Cavaliere; Andrea Soricelli; Lucilla Parnetti; Roberto Tarducci; Piero Floridi; Magda Tsolaki; Manos Constantinidis; Antonios Drevelegas; Paolo Maria Rossini; Camillo Marra; Peter Schoenknecht; Tilman Hensch; Karl-Titus Hoffmann; Joost P. Kuijer; Pieter Jelle Visser; Frederik Barkhof; Giovanni B. Frisoni; Jorge Jovicich

doi:10.1002/hbm.23157

Test-Retest Reliability of the Default Mode Network in a Multi-Centric fMRI Study of Healthy Elderly: Effects of Data-Driven Physiological Noise Correction Techniques

Rocco Marchitelli^*, Ludovico Minati, Moira Marizzoni, Beatriz Bosch, David Bartres-Faz, Bernhard W. Mueller, Jens Wiltfang, Ute Fiedler, Luca Roccatagliata, Agnese Picco, Flavio Nobili, Oliver Blin, Stephanie Bombois, Renaud Lopes, Regis Bordet, Julien Sein, Jean-Philippe Ranjeva, Mira Didic, Helene Gros-Dagnac, Pierre PayouxGiada Zoccatelli, Franco Alessandrini, Alberto Beltramello, Nuria Bargallo, Antonio Ferretti, Massimo Caulo, Marco Aiello, Carlo Cavaliere, Andrea Soricelli, Lucilla Parnetti, Roberto Tarducci, Piero Floridi, Magda Tsolaki, Manos Constantinidis, Antonios Drevelegas, Paolo Maria Rossini, Camillo Marra, Peter Schoenknecht, Tilman Hensch, Karl-Titus Hoffmann, Joost P. Kuijer, Pieter Jelle Visser, Frederik Barkhof, Giovanni B. Frisoni, Jorge Jovicich

^*Corresponding author for this work

MHeNs - Cognitive Neuropsychiatry and Clinical Neuroscience

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

Abstract

Understanding how to reduce the influence of physiological noise in resting state fMRI data is important for the interpretation of functional brain connectivity. Limited data is currently available to assess the performance of physiological noise correction techniques, in particular when evaluating longitudinal changes in the default mode network (DMN) of healthy elderly participants. In this 3T harmonized multisite fMRI study, we investigated how different retrospective physiological noise correction (rPNC) methods influence the within-site test-retest reliability and the across-site reproducibility consistency of DMN-derived measurements across 13 MRI sites. Elderly participants were scanned twice at least a week apart (five participants per site). The rPNC methods were: none (NPC), Tissue-based regression, PESTICA and FSL-FIX. The DMN at the single subject level was robustly identified using ICA methods in all rPNC conditions. The methods significantly affected the mean z-scores and, albeit less markedly, the cluster-size in the DMN; in particular, FSL-FIX tended to increase the DMN z-scores compared to others. Within-site test-retest reliability was consistent across sites, with no differences across rPNC methods. The absolute percent errors were in the range of 5-11% for DMN z-scores and cluster-size reliability. DMN pattern overlap was in the range 60-65%. In particular, no rPNC method showed a significant reliability improvement relative to NPC. However, FSL-FIX and Tissue-based physiological correction methods showed both similar and significant improvements of reproducibility consistency across the consortium (ICC50.67) for the DMN z-scores relative to NPC. Overall these findings support the use of rPNC methods like tissue-based or FSL-FIX to characterize multisite longitudinal changes of intrinsic functional connectivity.

Original language	English
Pages (from-to)	2114-2132
Journal	Human Brain Mapping
Volume	37
Issue number	6
DOIs	https://doi.org/10.1002/hbm.23157
Publication status	Published - Jun 2016

Keywords

task-free fMRI
resting-state networks
default mode network
physiological noise correction
multisite
test-retest reliability
independent component analysis

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10.1002/hbm.23157

Cite this

Marchitelli, R., Minati, L., Marizzoni, M., Bosch, B., Bartres-Faz, D., Mueller, B. W., Wiltfang, J., Fiedler, U., Roccatagliata, L., Picco, A., Nobili, F., Blin, O., Bombois, S., Lopes, R., Bordet, R., Sein, J., Ranjeva, J-P., Didic, M., Gros-Dagnac, H., ... Jovicich, J. (2016). Test-Retest Reliability of the Default Mode Network in a Multi-Centric fMRI Study of Healthy Elderly: Effects of Data-Driven Physiological Noise Correction Techniques. Human Brain Mapping, 37(6), 2114-2132. https://doi.org/10.1002/hbm.23157

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title = "Test-Retest Reliability of the Default Mode Network in a Multi-Centric fMRI Study of Healthy Elderly: Effects of Data-Driven Physiological Noise Correction Techniques",

abstract = "Understanding how to reduce the influence of physiological noise in resting state fMRI data is important for the interpretation of functional brain connectivity. Limited data is currently available to assess the performance of physiological noise correction techniques, in particular when evaluating longitudinal changes in the default mode network (DMN) of healthy elderly participants. In this 3T harmonized multisite fMRI study, we investigated how different retrospective physiological noise correction (rPNC) methods influence the within-site test-retest reliability and the across-site reproducibility consistency of DMN-derived measurements across 13 MRI sites. Elderly participants were scanned twice at least a week apart (five participants per site). The rPNC methods were: none (NPC), Tissue-based regression, PESTICA and FSL-FIX. The DMN at the single subject level was robustly identified using ICA methods in all rPNC conditions. The methods significantly affected the mean z-scores and, albeit less markedly, the cluster-size in the DMN; in particular, FSL-FIX tended to increase the DMN z-scores compared to others. Within-site test-retest reliability was consistent across sites, with no differences across rPNC methods. The absolute percent errors were in the range of 5-11% for DMN z-scores and cluster-size reliability. DMN pattern overlap was in the range 60-65%. In particular, no rPNC method showed a significant reliability improvement relative to NPC. However, FSL-FIX and Tissue-based physiological correction methods showed both similar and significant improvements of reproducibility consistency across the consortium (ICC50.67) for the DMN z-scores relative to NPC. Overall these findings support the use of rPNC methods like tissue-based or FSL-FIX to characterize multisite longitudinal changes of intrinsic functional connectivity. ",

keywords = "task-free fMRI, resting-state networks, default mode network, physiological noise correction, multisite, test-retest reliability, independent component analysis",

author = "Rocco Marchitelli and Ludovico Minati and Moira Marizzoni and Beatriz Bosch and David Bartres-Faz and Mueller, {Bernhard W.} and Jens Wiltfang and Ute Fiedler and Luca Roccatagliata and Agnese Picco and Flavio Nobili and Oliver Blin and Stephanie Bombois and Renaud Lopes and Regis Bordet and Julien Sein and Jean-Philippe Ranjeva and Mira Didic and Helene Gros-Dagnac and Pierre Payoux and Giada Zoccatelli and Franco Alessandrini and Alberto Beltramello and Nuria Bargallo and Antonio Ferretti and Massimo Caulo and Marco Aiello and Carlo Cavaliere and Andrea Soricelli and Lucilla Parnetti and Roberto Tarducci and Piero Floridi and Magda Tsolaki and Manos Constantinidis and Antonios Drevelegas and Rossini, {Paolo Maria} and Camillo Marra and Peter Schoenknecht and Tilman Hensch and Karl-Titus Hoffmann and Kuijer, {Joost P.} and Visser, {Pieter Jelle} and Frederik Barkhof and Frisoni, {Giovanni B.} and Jorge Jovicich",

year = "2016",

month = jun,

doi = "10.1002/hbm.23157",

language = "English",

volume = "37",

pages = "2114--2132",

journal = "Human Brain Mapping",

issn = "1065-9471",

publisher = "Wiley",

number = "6",

}

Marchitelli, R, Minati, L, Marizzoni, M, Bosch, B, Bartres-Faz, D, Mueller, BW, Wiltfang, J, Fiedler, U, Roccatagliata, L, Picco, A, Nobili, F, Blin, O, Bombois, S, Lopes, R, Bordet, R, Sein, J, Ranjeva, J-P, Didic, M, Gros-Dagnac, H, Payoux, P, Zoccatelli, G, Alessandrini, F, Beltramello, A, Bargallo, N, Ferretti, A, Caulo, M, Aiello, M, Cavaliere, C, Soricelli, A, Parnetti, L, Tarducci, R, Floridi, P, Tsolaki, M, Constantinidis, M, Drevelegas, A, Rossini, PM, Marra, C, Schoenknecht, P, Hensch, T, Hoffmann, K-T, Kuijer, JP, Visser, PJ, Barkhof, F, Frisoni, GB & Jovicich, J 2016, 'Test-Retest Reliability of the Default Mode Network in a Multi-Centric fMRI Study of Healthy Elderly: Effects of Data-Driven Physiological Noise Correction Techniques', Human Brain Mapping, vol. 37, no. 6, pp. 2114-2132. https://doi.org/10.1002/hbm.23157

Test-Retest Reliability of the Default Mode Network in a Multi-Centric fMRI Study of Healthy Elderly: Effects of Data-Driven Physiological Noise Correction Techniques. / Marchitelli, Rocco; Minati, Ludovico; Marizzoni, Moira et al.
In: Human Brain Mapping, Vol. 37, No. 6, 06.2016, p. 2114-2132.

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

TY - JOUR

T1 - Test-Retest Reliability of the Default Mode Network in a Multi-Centric fMRI Study of Healthy Elderly: Effects of Data-Driven Physiological Noise Correction Techniques

AU - Marchitelli, Rocco

AU - Minati, Ludovico

AU - Marizzoni, Moira

AU - Bosch, Beatriz

AU - Bartres-Faz, David

AU - Mueller, Bernhard W.

AU - Wiltfang, Jens

AU - Fiedler, Ute

AU - Roccatagliata, Luca

AU - Picco, Agnese

AU - Nobili, Flavio

AU - Blin, Oliver

AU - Bombois, Stephanie

AU - Lopes, Renaud

AU - Bordet, Regis

AU - Sein, Julien

AU - Ranjeva, Jean-Philippe

AU - Didic, Mira

AU - Gros-Dagnac, Helene

AU - Payoux, Pierre

AU - Zoccatelli, Giada

AU - Alessandrini, Franco

AU - Beltramello, Alberto

AU - Bargallo, Nuria

AU - Ferretti, Antonio

AU - Caulo, Massimo

AU - Aiello, Marco

AU - Cavaliere, Carlo

AU - Soricelli, Andrea

AU - Parnetti, Lucilla

AU - Tarducci, Roberto

AU - Floridi, Piero

AU - Tsolaki, Magda

AU - Constantinidis, Manos

AU - Drevelegas, Antonios

AU - Rossini, Paolo Maria

AU - Marra, Camillo

AU - Schoenknecht, Peter

AU - Hensch, Tilman

AU - Hoffmann, Karl-Titus

AU - Kuijer, Joost P.

AU - Visser, Pieter Jelle

AU - Barkhof, Frederik

AU - Frisoni, Giovanni B.

AU - Jovicich, Jorge

PY - 2016/6

Y1 - 2016/6

N2 - Understanding how to reduce the influence of physiological noise in resting state fMRI data is important for the interpretation of functional brain connectivity. Limited data is currently available to assess the performance of physiological noise correction techniques, in particular when evaluating longitudinal changes in the default mode network (DMN) of healthy elderly participants. In this 3T harmonized multisite fMRI study, we investigated how different retrospective physiological noise correction (rPNC) methods influence the within-site test-retest reliability and the across-site reproducibility consistency of DMN-derived measurements across 13 MRI sites. Elderly participants were scanned twice at least a week apart (five participants per site). The rPNC methods were: none (NPC), Tissue-based regression, PESTICA and FSL-FIX. The DMN at the single subject level was robustly identified using ICA methods in all rPNC conditions. The methods significantly affected the mean z-scores and, albeit less markedly, the cluster-size in the DMN; in particular, FSL-FIX tended to increase the DMN z-scores compared to others. Within-site test-retest reliability was consistent across sites, with no differences across rPNC methods. The absolute percent errors were in the range of 5-11% for DMN z-scores and cluster-size reliability. DMN pattern overlap was in the range 60-65%. In particular, no rPNC method showed a significant reliability improvement relative to NPC. However, FSL-FIX and Tissue-based physiological correction methods showed both similar and significant improvements of reproducibility consistency across the consortium (ICC50.67) for the DMN z-scores relative to NPC. Overall these findings support the use of rPNC methods like tissue-based or FSL-FIX to characterize multisite longitudinal changes of intrinsic functional connectivity.

AB - Understanding how to reduce the influence of physiological noise in resting state fMRI data is important for the interpretation of functional brain connectivity. Limited data is currently available to assess the performance of physiological noise correction techniques, in particular when evaluating longitudinal changes in the default mode network (DMN) of healthy elderly participants. In this 3T harmonized multisite fMRI study, we investigated how different retrospective physiological noise correction (rPNC) methods influence the within-site test-retest reliability and the across-site reproducibility consistency of DMN-derived measurements across 13 MRI sites. Elderly participants were scanned twice at least a week apart (five participants per site). The rPNC methods were: none (NPC), Tissue-based regression, PESTICA and FSL-FIX. The DMN at the single subject level was robustly identified using ICA methods in all rPNC conditions. The methods significantly affected the mean z-scores and, albeit less markedly, the cluster-size in the DMN; in particular, FSL-FIX tended to increase the DMN z-scores compared to others. Within-site test-retest reliability was consistent across sites, with no differences across rPNC methods. The absolute percent errors were in the range of 5-11% for DMN z-scores and cluster-size reliability. DMN pattern overlap was in the range 60-65%. In particular, no rPNC method showed a significant reliability improvement relative to NPC. However, FSL-FIX and Tissue-based physiological correction methods showed both similar and significant improvements of reproducibility consistency across the consortium (ICC50.67) for the DMN z-scores relative to NPC. Overall these findings support the use of rPNC methods like tissue-based or FSL-FIX to characterize multisite longitudinal changes of intrinsic functional connectivity.

KW - task-free fMRI

KW - resting-state networks

KW - default mode network

KW - physiological noise correction

KW - multisite

KW - test-retest reliability

KW - independent component analysis

U2 - 10.1002/hbm.23157

DO - 10.1002/hbm.23157

M3 - Article

C2 - 26990928

SN - 1065-9471

VL - 37

SP - 2114

EP - 2132

JO - Human Brain Mapping

JF - Human Brain Mapping

IS - 6

ER -