EEG-meta-microstates: Towards a more objective use of resting-state EEG microstate findings across studies

Thomas Koenig; Sarah Diezig; Sahana Nagabhushan Kalburgi; Elena Antonova; Fiorenzo Artoni; Lucie Brechet; Juliane Britz; Pierpaolo Croce; Anna Custo; Alena Damborská; Camila Deolindo; Markus Heinrichs; Tobias Kleinert; Zhen Liang; Michael M. Murphy; Kyle Nash; Chrystopher Nehaniv; Bastian Schiller; Una Smailovic; Povilas Tarailis; Miralena Tomescu; Eren Toplutaş; Federica Vellante; Anthony Zanesco; Filippo Zappasodi; Qihong Zou; Christoph M. Michel

doi:10.1007/s10548-023-00993-6

EEG-meta-microstates: Towards a more objective use of resting-state EEG microstate findings across studies

Thomas Koenig, Sarah Diezig, Sahana Nagabhushan Kalburgi, Elena Antonova, Fiorenzo Artoni, Lucie Brechet, Juliane Britz, Pierpaolo Croce, Anna Custo, Alena Damborská, Camila Deolindo, Markus Heinrichs, Tobias Kleinert, Zhen Liang, Michael M. Murphy, Kyle Nash, Chrystopher Nehaniv, Bastian Schiller, Una Smailovic, Povilas TarailisMiralena Tomescu, Eren Toplutaş, Federica Vellante, Anthony Zanesco, Filippo Zappasodi, Qihong Zou, Christoph M. Michel

Psychology

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

25 Scopus citations

Abstract

Over the last decade, EEG resting-state microstate analysis has evolved from a niche existence to a widely used and well-accepted methodology. The rapidly increasing body of empirical findings started to yield overarching patterns of associations of biological and psychological states and traits with specific microstate classes. However, currently, this cross-referencing among apparently similar microstate classes of different studies is typically done by “eyeballing” of printed template maps by the individual authors, lacking a systematic procedure. To improve the reliability and validity of future findings, we present a tool to systematically collect the actual data of template maps from as many published studies as possible and present them in their entirety as a matrix of spatial similarity. The tool also allows importing novel template maps and systematically extracting the findings associated with specific microstate maps from ongoing or published studies. The tool also allows importing novel template maps and systematically extracting the findings associated with specific microstate maps in the literature. The analysis of 40 included sets of template maps indicated that: (i) there is a high degree of similarity of template maps across studies, (ii) similar template maps were associated with converging empirical findings, and (iii) representative meta-microstates can be extracted from the individual studies. We hope that this tool will be useful in coming to a more comprehensive, objective, and overarching representation of microstate findings.

Original language	English
Pages (from-to)	218-231
Number of pages	14
Journal	Brain Topography
Volume	37
Issue number	2
DOIs	https://doi.org/10.1007/s10548-023-00993-6
State	Published - Mar 2024

Bibliographical note

Publisher Copyright:
© The Author(s) 2023.

Keywords

EEG
Functional brain states
Mental states
Meta-analysis
Microstates
Resting-state
Spatial similarity

ASJC Scopus subject areas

Anatomy
Radiological and Ultrasound Technology
Radiology Nuclear Medicine and imaging
Neurology
Clinical Neurology

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10.1007/s10548-023-00993-6

Cite this

Koenig, T., Diezig, S., Kalburgi, S. N., Antonova, E., Artoni, F., Brechet, L., Britz, J., Croce, P., Custo, A., Damborská, A., Deolindo, C., Heinrichs, M., Kleinert, T., Liang, Z., Murphy, M. M., Nash, K., Nehaniv, C., Schiller, B., Smailovic, U., ... Michel, C. M. (2024). EEG-meta-microstates: Towards a more objective use of resting-state EEG microstate findings across studies. Brain Topography, 37(2), 218-231. https://doi.org/10.1007/s10548-023-00993-6

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abstract = "Over the last decade, EEG resting-state microstate analysis has evolved from a niche existence to a widely used and well-accepted methodology. The rapidly increasing body of empirical findings started to yield overarching patterns of associations of biological and psychological states and traits with specific microstate classes. However, currently, this cross-referencing among apparently similar microstate classes of different studies is typically done by “eyeballing” of printed template maps by the individual authors, lacking a systematic procedure. To improve the reliability and validity of future findings, we present a tool to systematically collect the actual data of template maps from as many published studies as possible and present them in their entirety as a matrix of spatial similarity. The tool also allows importing novel template maps and systematically extracting the findings associated with specific microstate maps from ongoing or published studies. The tool also allows importing novel template maps and systematically extracting the findings associated with specific microstate maps in the literature. The analysis of 40 included sets of template maps indicated that: (i) there is a high degree of similarity of template maps across studies, (ii) similar template maps were associated with converging empirical findings, and (iii) representative meta-microstates can be extracted from the individual studies. We hope that this tool will be useful in coming to a more comprehensive, objective, and overarching representation of microstate findings.",

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note = "Publisher Copyright: {\textcopyright} The Author(s) 2023.",

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Koenig, T, Diezig, S, Kalburgi, SN, Antonova, E, Artoni, F, Brechet, L, Britz, J, Croce, P, Custo, A, Damborská, A, Deolindo, C, Heinrichs, M, Kleinert, T, Liang, Z, Murphy, MM, Nash, K, Nehaniv, C, Schiller, B, Smailovic, U, Tarailis, P, Tomescu, M, Toplutaş, E, Vellante, F, Zanesco, A, Zappasodi, F, Zou, Q & Michel, CM 2024, 'EEG-meta-microstates: Towards a more objective use of resting-state EEG microstate findings across studies', Brain Topography, vol. 37, no. 2, pp. 218-231. https://doi.org/10.1007/s10548-023-00993-6

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T2 - Towards a more objective use of resting-state EEG microstate findings across studies

AU - Koenig, Thomas

AU - Diezig, Sarah

AU - Kalburgi, Sahana Nagabhushan

AU - Antonova, Elena

AU - Artoni, Fiorenzo

AU - Brechet, Lucie

AU - Britz, Juliane

AU - Croce, Pierpaolo

AU - Custo, Anna

AU - Damborská, Alena

AU - Deolindo, Camila

AU - Heinrichs, Markus

AU - Kleinert, Tobias

AU - Liang, Zhen

AU - Murphy, Michael M.

AU - Nash, Kyle

AU - Nehaniv, Chrystopher

AU - Schiller, Bastian

AU - Smailovic, Una

AU - Tarailis, Povilas

AU - Tomescu, Miralena

AU - Toplutaş, Eren

AU - Vellante, Federica

AU - Zanesco, Anthony

AU - Zappasodi, Filippo

AU - Zou, Qihong

AU - Michel, Christoph M.

PY - 2024/3

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N2 - Over the last decade, EEG resting-state microstate analysis has evolved from a niche existence to a widely used and well-accepted methodology. The rapidly increasing body of empirical findings started to yield overarching patterns of associations of biological and psychological states and traits with specific microstate classes. However, currently, this cross-referencing among apparently similar microstate classes of different studies is typically done by “eyeballing” of printed template maps by the individual authors, lacking a systematic procedure. To improve the reliability and validity of future findings, we present a tool to systematically collect the actual data of template maps from as many published studies as possible and present them in their entirety as a matrix of spatial similarity. The tool also allows importing novel template maps and systematically extracting the findings associated with specific microstate maps from ongoing or published studies. The tool also allows importing novel template maps and systematically extracting the findings associated with specific microstate maps in the literature. The analysis of 40 included sets of template maps indicated that: (i) there is a high degree of similarity of template maps across studies, (ii) similar template maps were associated with converging empirical findings, and (iii) representative meta-microstates can be extracted from the individual studies. We hope that this tool will be useful in coming to a more comprehensive, objective, and overarching representation of microstate findings.

AB - Over the last decade, EEG resting-state microstate analysis has evolved from a niche existence to a widely used and well-accepted methodology. The rapidly increasing body of empirical findings started to yield overarching patterns of associations of biological and psychological states and traits with specific microstate classes. However, currently, this cross-referencing among apparently similar microstate classes of different studies is typically done by “eyeballing” of printed template maps by the individual authors, lacking a systematic procedure. To improve the reliability and validity of future findings, we present a tool to systematically collect the actual data of template maps from as many published studies as possible and present them in their entirety as a matrix of spatial similarity. The tool also allows importing novel template maps and systematically extracting the findings associated with specific microstate maps from ongoing or published studies. The tool also allows importing novel template maps and systematically extracting the findings associated with specific microstate maps in the literature. The analysis of 40 included sets of template maps indicated that: (i) there is a high degree of similarity of template maps across studies, (ii) similar template maps were associated with converging empirical findings, and (iii) representative meta-microstates can be extracted from the individual studies. We hope that this tool will be useful in coming to a more comprehensive, objective, and overarching representation of microstate findings.

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KW - Mental states

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KW - Resting-state

KW - Spatial similarity

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EEG-meta-microstates: Towards a more objective use of resting-state EEG microstate findings across studies

Abstract

Bibliographical note

Keywords

ASJC Scopus subject areas

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