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This study examined the dynamic properties of brain regions involved in the genesis and spread of seizures in 10 individuals diagnosed with pharmacoresistant focal epilepsy. The patients and 30 healthy controls underwent resting-state functional magnetic resonance imaging scans and the brain's functional network dynamics were analyzed using the intrinsic ignition framework. Comparative statistical analyses examined the differences in the integration and metastability measures in both groups in the whole brain and specific local brain regions. Invasive electroencephalography evaluations validated the findings of significant global and regional changes in the patient's brain network dynamics. There was a marked increase in global integration and metastability across the brain, reflecting substantial alterations in the overall connectivity and flexibility of the functional networks. Specific brain regions exhibited paradoxical dynamics within the seizure onset zone, with decreased intrinsic ignition and increased metastability. Increased intrinsic ignition was observed in remote brain regions, suggesting a reorganization of the brain network hubs and potential pathways for seizure propagation. Using the intrinsic ignition framework provided insights into dynamic alterations in the brain networks of patients with epilepsy. These have increased our understanding of the mechanisms underlying epileptic seizures and may guide the development of diagnostic biomarkers and targeted therapeutic interventions.

Original publication

DOI

10.1093/cercor/bhae419

Type

Journal article

Journal

Cereb Cortex

Publication Date

03/10/2024

Volume

34

Keywords

epilepsy, functional connectivity, functional magnetic resonance imaging, integration dynamics, intrinsic ignition framework, Humans, Male, Female, Magnetic Resonance Imaging, Brain, Adult, Nerve Net, Young Adult, Electroencephalography, Middle Aged, Neural Pathways, Drug Resistant Epilepsy, Brain Mapping, Epilepsies, Partial, Epilepsy