Human sensorimotor resting state beta events and aperiodic activity show good test–retest reliability

K. Amande M. Pauls, Pietari Nurmi, Heidi Ala-Salomäki, Hanna Renvall, Jan Kujala, Mia Liljeström

Forskningsoutput: TidskriftsbidragArtikelVetenskapligPeer review

Sammanfattning

Objective: Diseases affecting sensorimotor function impair physical independence. Reliable functional clinical biomarkers allowing early diagnosis or targeting treatment and rehabilitation could reduce this burden. Magnetoencephalography (MEG) non-invasively measures brain rhythms such as the somatomotor ‘rolandic’ rhythm which shows intermittent high-amplitude beta (14–30 Hz) ‘events’ that predict behavior across tasks and species and are altered by sensorimotor neurological diseases. Methods: We assessed test–retest stability, a prerequisite for biomarkers, of spontaneous sensorimotor aperiodic (1/f) signal and beta events in 50 healthy human controls across two MEG sessions using the intraclass correlation coefficient (ICC). Beta events were determined using an amplitude-thresholding approach on a narrow-band filtered amplitude envelope obtained using Morlet wavelet decomposition. Results: Resting sensorimotor characteristics showed good to excellent test–retest stability. Aperiodic component (ICC 0.77–0.88) and beta event amplitude (ICC 0.74–0.82) were very stable, whereas beta event duration was more variable (ICC 0.55–0.7). 2–3 minute recordings were sufficient to obtain stable results. Analysis automatization was successful in 86%. Conclusions: Sensorimotor beta phenotype is a stable feature of an individual's resting brain activity even for short recordings easily measured in patients. Significance: Spontaneous sensorimotor beta phenotype has potential as a clinical biomarker of sensorimotor system integrity.

Originalspråkengelska
TidskriftClinical Neurophysiology
Volym163
Sidor (från-till)244-254
Antal sidor11
ISSN1388-2457
DOI
StatusPublicerad - juli 2024
MoE-publikationstypA1 Tidskriftsartikel-refererad

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Publisher Copyright:
© 2024 International Federation of Clinical Neurophysiology

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  • 3124 Neurologi och psykiatri

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