Dynamic Causal Modelling of the Reduced Habituation to Painful Stimuli in Migraine: An EEG Study

Overview

Journal Brain Sci

Publisher MDPI

Date 2020 Oct 10

PMID 33036334

Citations 4

Authors

Iege Bassez

Frederik Van de Steen

Katia Ricci

Eleonora Vecchio

Eleonora Gentile

Daniele Marinazzo

Marina de Tommaso

Affiliations

Soon will be listed here.

Abstract

A consistent finding in migraine is reduced cortical habituation to repetitive sensory stimuli. This study investigated brain dynamics underlying the atypical habituation to painful stimuli in interictal migraine. We investigated modulations in effective connectivity between the sources of laser evoked potentials (LEPs) from a first to final block of trigeminal LEPs using dynamic causal modelling (DCM) in a group of 23 migraine patients and 20 controls. Additionally, we looked whether the strength of dynamical connections in the migrainous brain is initially different. The examined network consisted of the secondary somatosensory areas (lS2, rS2), insulae (lIns, rIns), anterior cingulate cortex (ACC), contralateral primary somatosensory cortex (lS1), and a hidden source assumed to represent the thalamus. Results suggest that migraine patients show initially heightened communication between lS1 and the thalamus, in both directions. After repetitive stimulations, connection strengths from the thalamus to all somatosensory areas habituated in controls whereas this was not apparent in migraine. Together with further abnormalities in initial connectivity strengths and modulations between the thalamus and the insulae, these results are in line with altered thalamo-cortical network dynamics in migraine. Group differences in connectivity from and to the insulae including interhemispheric connections, suggests an important role of the insulae.

Citing Articles

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Supersaturation of VEP in Migraine without Aura Patients Treated with Topiramate: An Anatomo-Functional Biomarker of the Disease.

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de Tommaso M, Vecchio E, Quitadamo S, Coppola G, Di Renzo A, Parisi V Brain Sci. 2021; 11(2).

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