The aperiodic exponent of neural activity varies with vigilance state in mice and men

Freja Gam Østergaard; Brenda W.J.H. Penninx; Neetha Das; Celso Arango; Nic van der Wee; Inge Winter-Van Rossum; Jose Luis Ayuso-Mateos; Gerard R. Dawson; Hugh Marston; Martien J. H. Kas

doi:10.1371/journal.pone.0301406

The aperiodic exponent of neural activity varies with vigilance state in mice and men

Freja Gam Østergaard^*, Brenda W.J.H. Penninx, Neetha Das, Celso Arango, Nic van der Wee, Inge Winter-Van Rossum, Jose Luis Ayuso-Mateos, Gerard R. Dawson, Hugh Marston, Martien J. H. Kas^*

^*Corresponding author for this work

Kas lab - Behavioural Neuroscience

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

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Abstract

Recently the 1/f signal of human electroencephalography has attracted attention, as it could potentially reveal a quantitative measure of neural excitation and inhibition in the brain, that may be relevant in a clinical setting. The purpose of this short article is to show that the 1/f signal depends on the vigilance state of the brain in both humans and mice. Therefore, proper labelling of the EEG signal is important as improper labelling may obscure diseaserelated changes in the 1/f signal. We demonstrate this by comparing EEG results from a longitudinal study in a genetic mouse model for synaptic dysfunction in schizophrenia and autism spectrum disorders to results from a large European cohort study with schizophrenia and mild Alzheimer's disease patients. The comparison shows when the 1/f is corrected for vigilance state there is a difference between groups, and this effect disappears when vigilance state is not corrected for. In conclusion, more attention should be paid to the vigilance state during analysis of EEG signals regardless of the species.

Original language	English
Article number	e0301406
Number of pages	11
Journal	PLoS ONE
Volume	19
Issue number	8
DOIs	https://doi.org/10.1371/journal.pone.0301406
Publication status	Published - Aug-2024

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The aperiodic exponent of neural activity varies with vigilance state in mice and menFinal publisher's version, 1.09 MBLicence: CC BY

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title = "The aperiodic exponent of neural activity varies with vigilance state in mice and men",

abstract = "Recently the 1/f signal of human electroencephalography has attracted attention, as it could potentially reveal a quantitative measure of neural excitation and inhibition in the brain, that may be relevant in a clinical setting. The purpose of this short article is to show that the 1/f signal depends on the vigilance state of the brain in both humans and mice. Therefore, proper labelling of the EEG signal is important as improper labelling may obscure diseaserelated changes in the 1/f signal. We demonstrate this by comparing EEG results from a longitudinal study in a genetic mouse model for synaptic dysfunction in schizophrenia and autism spectrum disorders to results from a large European cohort study with schizophrenia and mild Alzheimer's disease patients. The comparison shows when the 1/f is corrected for vigilance state there is a difference between groups, and this effect disappears when vigilance state is not corrected for. In conclusion, more attention should be paid to the vigilance state during analysis of EEG signals regardless of the species.",

author = "{\O}stergaard, {Freja Gam} and Penninx, {Brenda W.J.H.} and Neetha Das and Celso Arango and {van der Wee}, Nic and {Winter-Van Rossum}, Inge and Ayuso-Mateos, {Jose Luis} and Dawson, {Gerard R.} and Hugh Marston and Kas, {Martien J. H.}",

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AU - Østergaard, Freja Gam

AU - Penninx, Brenda W.J.H.

AU - Das, Neetha

AU - Arango, Celso

AU - van der Wee, Nic

AU - Winter-Van Rossum, Inge

AU - Ayuso-Mateos, Jose Luis

AU - Dawson, Gerard R.

AU - Marston, Hugh

AU - Kas, Martien J. H.

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AB - Recently the 1/f signal of human electroencephalography has attracted attention, as it could potentially reveal a quantitative measure of neural excitation and inhibition in the brain, that may be relevant in a clinical setting. The purpose of this short article is to show that the 1/f signal depends on the vigilance state of the brain in both humans and mice. Therefore, proper labelling of the EEG signal is important as improper labelling may obscure diseaserelated changes in the 1/f signal. We demonstrate this by comparing EEG results from a longitudinal study in a genetic mouse model for synaptic dysfunction in schizophrenia and autism spectrum disorders to results from a large European cohort study with schizophrenia and mild Alzheimer's disease patients. The comparison shows when the 1/f is corrected for vigilance state there is a difference between groups, and this effect disappears when vigilance state is not corrected for. In conclusion, more attention should be paid to the vigilance state during analysis of EEG signals regardless of the species.

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The aperiodic exponent of neural activity varies with vigilance state in mice and men

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