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Brain Topography
Published in:

Open Access 13-02-2024 | Editorial

Current State of EEG/ERP Microstate Research

Authors: Christoph M. Michel, Lucie Brechet, Bastian Schiller, Thomas Koenig

Published in: Brain Topography | Issue 2/2024

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Abstract

The analysis of EEG microstates for investigating rapid whole-brain network dynamics during rest and tasks has become a standard practice in the EEG research community, leading to a substantial increase in publications across various affective, cognitive, social and clinical neuroscience domains. Recognizing the growing significance of this analytical method, the authors aim to provide the microstate research community with a comprehensive discussion on methodological standards, unresolved questions, and the functional relevance of EEG microstates. In August 2022, a conference was hosted in Bern, Switzerland, which brought together many researchers from 19 countries. During the conference, researchers gave scientific presentations and engaged in roundtable discussions aiming at establishing steps toward standardizing EEG microstate analysis methods. Encouraged by the conference’s success, a special issue was launched in Brain Topography to compile the current state-of-the-art in EEG microstate research, encompassing methodological advancements, experimental findings, and clinical applications. The call for submissions for the special issue garnered 48 contributions from researchers worldwide, spanning reviews, meta-analyses, tutorials, and experimental studies. Following a rigorous peer-review process, 33 papers were accepted whose findings we will comprehensively discuss in this Editorial.
Literature
Artoni F, Michel C (2024) How does Independent Component Analysis preprocessing affect EEG. microstates? Brain Topography in revision
Artoni F, Maillard J, Britz J, Seeber M, Lysakowski C, Bréchet L, Tramèr M, Michel C (2021) EEG microstate dynamics indicate a U-shaped path to propofol-induced loss of consciousness. bioRxvi 10.26.465841
Artoni F, Maillard J, Britz J, Brunet D, Lysakowski C, Tramer MR, Michel CM (2023) NeuroImage 277:120196 Microsynt: Exploring the syntax of EEG microstatesPubMedCrossRef
Bagdasarov A, Brunet D, Michel C, Gaffrey M (2024) Microstate Analysis of continuous infant EEG: Tutorial and Reliability. Brain Topography in revision
Berger H (1929) Über das Elektroenkephalogramm des Menschen. Arch Psychiatr Nervenkrankh 87:527–570CrossRef
Biswal B, Yetkin FZ, Haughton VM, Hyde JS (1995) Functional connectivity in the motor cortex of resting human brain using echo-planar MRI. Magn Reson Med 34(4):537–541PubMedCrossRef
Brandeis D, Lehmann D (1986) Event-related Potentials Brain Cogn Processes: Approaches Appl Neuropsychologia 24(1):151–168
Brechet L, Brunet D, Perogamvros L, Tononi G, Michel CM (2020) EEG Microstates Dreams Sci Rep 10(1):17069PubMed
Bréchet L, Brunet D, Birot G, Gruetter R, Michel CM, Jorge J (2019) Capturing the spatiotemporal dynamics of self-generated, task-initiated thoughts with EEG and fMRI. NeuroImage 194:82–92PubMedCrossRef
Bressler SL (1995) Large-scale cortical networks and cognition. Brain Res Brain Res Rev 20(3):288–304PubMedCrossRef
Britz J, Van De Ville D, Michel CM (2010) BOLD correlates of EEG topography reveal rapid resting-state network dynamics. NeuroImage 52(4):1162–1170PubMedCrossRef
Brodbeck V, Kuhn A, von Wegner F, Morzelewski A, Tagliazucchi E, Borisov S, Michel CM, Laufs H (2012) EEG microstates of wakefulness and NREM sleep. NeuroImage 62(3):2129–2139PubMedCrossRef
Brunet D, Murray MM, Michel CM (2011) Spatiotemporal Anal Multichannel EEG: CARTOOL Comput Intell Neurosci 2011:813870
Carbone G, Michel C, Farina B, Adenzato M, Ardito R, Imperatori C, Artoni F (2024) Altered EEG patterns in individuals with disorganized attachment: an EEG microstates study. Brain Topography in revision
Custo A, Van De Ville D, Wells WM, Tomescu MI, Brunet D, Michel CM (2017) Electroencephalographic Resting-State Networks: Source Localization Microstates Brain Connect 7(10):671–682PubMed
da Cruz JR, Favrod O, Roinishvili M, Chkonia E, Brand A, Mohr C, Figueiredo P, Herzog MH (2020) EEG microstates are a candidate endophenotype for schizophrenia. Nat Commun 11(1):3089ADSPubMedPubMedCentralCrossRef
Damborska A, Tomescu MI, Honzirkova E, Bartecek R, Horinkova J, Fedorova S, Ondrus S, Michel CM (2019) EEG resting-state large-scale Brain Network dynamics are related to depressive symptoms. Front Psychiatry 10:548PubMedPubMedCentralCrossRef
Das S, Zomorrodi R, Enticott PG, Kirkovski M, Blumberger DM, Rajji TK, Desarkar P (2022) Resting state electroencephalography microstates in autism spectrum disorder: a mini-review. Front Psychiatry 13:988939PubMedPubMedCentralCrossRef
Dierks T, Jelic V, Julin P, Maurer K, Wahlund LO, Almkvist O, Strik WK, Winblad B (1997) EEG-microstates in mild memory impairment and Alzheimer’s disease: possible association with disturbed information processing. J Neural Transm 104(4–5):483–495PubMedCrossRef
Khanna A, Pascual-Leone A, Michel CM, Farzan F (2015) Microstates in resting-state EEG: current status and future directions. Neurosci Biobehav Rev 49:105–113PubMedCrossRef
Kleinert T, Nash K, Leota J, Koenig T, Heinrichs M, Schiller B (2022) A self-controlled mind is reflected by stable Mental Processing. Psychol Sci 33(12):2123–2137PubMedCrossRef
Koenig T, Lehmann D, Merlo MC, Kochi K, Hell D, Koukkou M (1999) A deviant EEG brain microstate in acute, neuroleptic-naive schizophrenics at rest. Eur Arch Psychiatry Clin Neurosci 249(4):205–211PubMedCrossRef
Koenig T, Prichep L, Lehmann D, Sosa PV, Braeker E, Kleinlogel H, Isenhart R, John ER (2002) Millisecond by millisecond, year by year: normative EEG microstates and developmental stages. NeuroImage 16:41–48PubMedCrossRef
Koenig T, Studer D, Hubl D, Melie L, Strik WK (2005) Brain connectivity at different time-scales measured with EEG. Philos Trans R Soc Lond B Biol Sci 360(1457):1015–1023PubMedPubMedCentralCrossRef
Koenig T, Diezig S, Kalburgi SN, Antonova E, Artoni F, Brechet L, Britz J, Croce P, Custo A, Damborska A, Deolindo C, Heinrichs M, Kleinert T, Liang Z, Murphy MM, Nash K, Nehaniv C, Schiller B, Smailovic U, Tarailis P, Tomescu M, Toplutas E, Vellante F, Zanesco A, Zappasodi F, Zou Q, Michel CM (2023) EEG-Meta-microstates: towards a more objective use of resting-state EEG microstate findings across studies. Brain Topogr. https://​doi.​org/​10.​1007/​s10548-023-00993-6CrossRefPubMedPubMedCentral
Lapointe AP, Li D, Hudetz AG, Vlisides PE (2023) Microstate analyses as an indicator of anesthesia-induced unconsciousness. Clin Neurophysiol 147:81–87PubMedCrossRef
Lehmann D (1971) Multichannel topography of human alpha EEG fields. Electroencephalogr Clin Neurophysiol 31:439–449PubMedCrossRef
Lehmann D (1984) Segmentierung Der EEG-Skalp-Felder in Sekundenbruchteilen: Beziehung zu Vigilanz Und Denkstrategien. Vigilanz. J. Kugler and V. Leutner. Basel, Editiones Roche
Lehmann D, Ozaki H, Pal I (1987) EEG alpha map series: brain micro-states by space-oriented adaptive segmentation. Electroencephalogr Clin Neurophysiol 67:271–288PubMedCrossRef
Li Y, Shi W, Liu Z, Li J, Wang Q, Yan X, Cao Z, Wang G (2021) Effective brain State Estimation during Propofol-Induced Sedation using Advanced EEG Microstate Spectral Analysis. IEEE J Biomed Health Inf 25(4):978–987CrossRef
Michel CM, Koenig T (2018) EEG microstates as a tool for studying the temporal dynamics of whole-brain neuronal networks: a review. NeuroImage 15(180):577–593CrossRef
Michel CM, Seeck M, Landis T (1999) Spatiotemporal Dynamics Hum Cognition News Physiol Sci 14:206–214
Michel CM, Thut G, Morand S, Khateb A, Pegna AJ, Grave R, de Peralta S, Gonzalez M, Seeck, Landis T (2001) Electric source imaging of human brain functions. Brain Res Brain Res Rev 36(2–3):108–118PubMedCrossRef
Murphy M, Whitton AE, Deccy S, Ironside ML, Rutherford A, Beltzer M, Sacchet M, Pizzagalli DA (2020) Abnormalities in electroencephalographic microstates are state and trait markers of major depressive disorder. Neuropsychopharmacology 45(12):2030–2037PubMedPubMedCentralCrossRef
Murray MM, Brunet D, Michel CM (2008) Topographic ERP analyses: a step-by-step tutorial review. Brain Topogr 20(4):249–264PubMedCrossRef
Pascual-Marqui RD, Michel CM, Lehmann D (1995) Segmentation of brain electrical activity into microstates: model estimation and validation. IEEE Trans Biomed Eng 42:658–665PubMedCrossRef
Rieger K, Diaz Hernandez L, Baenninger A, Koenig T (2016) 15 years of Microstate Research in Schizophrenia - where are we? A Meta-analysis. Front Psychiatry 7:22PubMedPubMedCentralCrossRef
Schiller B, Gianotti LR, Baumgartner T, Nash K, Koenig T, Knoch D (2016) Clocking the social mind by identifying mental processes in the IAT with electrical neuroimaging. Proc Natl Acad Sci U S A 113(10):2786–2791ADSPubMedPubMedCentralCrossRef
Strik WK, Dierks T, Becker T, Lehmann D (1995) Larger topographical variance and decreased duration of brain electric microstates in depression. J Neural Transm Gen Sect. 99:213–222PubMedCrossRef
Strik WK, Chiaramonti R, Muscas GC, Paganini M, Mueller TJ, Fallgatter AJ, Versari A, Zappoli R (1997) Decreased EEG microstate duration and anteriorisation of the brain electrical fields in mild and moderate dementia of the Alzheimer type. Psychiatry Res 75:183–191PubMedCrossRef
Tait L, Zhang J (2022) +microstate: a MATLAB toolbox for brain microstate analysis in sensor and cortical EEG/MEG. NeuroImage 258:119346PubMedCrossRef
van de Ville D, Britz J, Michel CM (2010) EEG microstate sequences in healthy humans at rest reveal scale-free dynamics. Proc Natl Acad Sci U S A 107:18179–18184ADSPubMedCrossRef
von Wegner F, Tagliazucchi E, Laufs H (2017) Information-theoretical analysis of resting state EEG microstate sequences - non-Markovianity, non-stationarity and periodicities. NeuroImage 158:99–111CrossRef
Zanesco AP, King BG, Skwara AC, Saron CD (2020) Within and between-person correlates of the temporal dynamics of resting EEG microstates. NeuroImage 211:116631PubMedCrossRef
Metadata
Title
Current State of EEG/ERP Microstate Research
Authors
Christoph M. Michel
Lucie Brechet
Bastian Schiller
Thomas Koenig
Publication date
13-02-2024
Publisher
Springer US
Published in
Brain Topography / Issue 2/2024
Print ISSN: 0896-0267
Electronic ISSN: 1573-6792
DOI
https://doi.org/10.1007/s10548-024-01037-3

Other articles of this Issue 2/2024

Electrocorticographic Activation Patterns of Electroencephalographic Microstates

Normative Temporal Dynamics of Resting EEG Microstates

On the Reliability of the EEG Microstate Approach

  • Open Access
  • Original Paper

The Functional Aspects of Resting EEG Microstates: A Systematic Review

Frequency Analysis of EEG Microstate Sequences in Wakefulness and NREM Sleep

Correction: Normative Intercorrelations between EEG Microstate Characteristics

  • Open Access
  • Correction

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