Beta Oscillations in the Sensorimotor Cortex Correlate with Disease and Remission in Benign Epilepsy with Centrotemporal Spikes

Overview

Journal Brain Behav

Specialty Psychology

Date 2019 Feb 22

PMID 30790472

Citations 4

Authors

Dan Y Song

Sally M Stoyell

Erin E Ross

Lauren M Ostrowski

Emily L Thorn

Steven M Stufflebeam

Amy K Morgan

Britt C Emerton

Mark A Kramer

Catherine J Chu

Affiliations

Soon will be listed here.

Abstract

Introduction: Benign epilepsy with centrotemporal spikes (BECTS) is a common form of childhood epilepsy with the majority of those afflicted remitting during their early teenage years. Seizures arise from the lower half of the sensorimotor cortex of the brain (e.g. seizure onset zone) and the abnormal epileptiform discharges observed increase during NREM sleep. To date no clinical factors reliably predict disease course, making determination of ongoing seizure risk a significant challenge. Prior work in BECTS have shown abnormalities in beta band (14.9-30 Hz) oscillations during movement and rest. Oscillations in this frequency band are modulated by state of consciousness and thought to reflect intrinsic inhibitory mechanisms.

Methods: We used high density EEG and source localization techniques to examine beta band activity in the seizure onset zone (sensorimotor cortex) in a prospective cohort of children with BECTS and healthy controls during sleep. We hypothesized that beta power in the sensorimotor cortex would be different between patients and healthy controls, and that beta abnormalities would improve with resolution of disease in this self-limited epilepsy syndrome. We further explored the specificity of our findings and correlation with clinical features. Statistical testing was performed using logistic and standard linear regression models.

Results: We found that beta band power in the seizure onset zone is different between healthy controls and BECTS patients. We also found that a longer duration of time spent seizure-free (corresponding to disease remission) correlates with lower beta power in the seizure onset zone. Exploratory spatial analysis suggests this effect is not restricted to the sensorimotor cortex. Exploratory frequency analysis suggests that this phenomenon is also observed in alpha and gamma range activity. We found no relationship between beta power and the presence or rate of epileptiform discharges in the sensorimotor cortex or a test of sensorimotor performance.

Conclusion: These results provide evidence that cortical beta power in the seizure onset zone may provide a dynamic physiological biomarker of disease in BECTS.

Citing Articles

Connectivity increases during spikes and spike-free periods in self-limited epilepsy with centrotemporal spikes.

Goad B, Lee-Messer C, He Z, Porter B, Baumer F Clin Neurophysiol. 2022; 144:123-134.

PMID: 36307364 PMC: 10883644. DOI: 10.1016/j.clinph.2022.09.015.

A prediction model integrating synchronization biomarkers and clinical features to identify responders to vagus nerve stimulation among pediatric patients with drug-resistant epilepsy.

Ma J, Wang Z, Cheng T, Hu Y, Qin X, Wang W CNS Neurosci Ther. 2022; 28(11):1838-1848.

PMID: 35894770 PMC: 9532924. DOI: 10.1111/cns.13923.

Source EEG reveals that Rolandic epilepsy is a regional epileptic encephalopathy.

Spencer E, Chinappen D, Emerton B, Morgan A, Hamalainen M, Manoach D Neuroimage Clin. 2022; 33:102956.

PMID: 35151039 PMC: 8844714. DOI: 10.1016/j.nicl.2022.102956.

Beta oscillations in the sensorimotor cortex correlate with disease and remission in benign epilepsy with centrotemporal spikes.

Song D, Stoyell S, Ross E, Ostrowski L, Thorn E, Stufflebeam S Brain Behav. 2019; 9(3):e01237.

PMID: 30790472 PMC: 6422718. DOI: 10.1002/brb3.1237.

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