Impact of Epileptic Discharge on the Structural Connectivity of the Developing Brain
Impact of Epileptic Discharge on the Structural Connectivity of the Developing Brain: Combination of Intracerebral Stereotactic Electroencephalography Recording and Diffusion Tensor Imaging in Children With Drug-resistant Focal Epilepsy
Fondation Ophtalmologique Adolphe de Rothschild
82 participants
Dec 19, 2017
OBSERVATIONAL
Conditions
Summary
Focal epilepsy is associated with widespread alterations in structural brain connectivity, often present at the disease onset and related to learning disabilities. Whether ongoing seizure activity contributes to network pathology is a matter of debate. This study intends to measure the impact of seizures on structural connectivity on a local and on a global level. In children examined with intracerebral electrodes to evaluate whether a surgical cure can be proposed, we combine intracerebral stereotactic electroencephalography (EEG) recordings with diffusion weighted imaging of white matter fibers. On the local level, the study will quantify the number of deficient connections in the seizure onset zone. On a global level, the study will compare the white matter fibers of the left and right hemisphere to probe whether physiological language lateralization is preserved.
Eligibility
Inclusion Criteria2
- \- Drug resistant focal epilepsy
- \- without drug resistant focal epilepsy
Exclusion Criteria12
- Severe mental retardation (IQ \< 50)
- Lack of French-language skills
- Contraindications to MRI
- Bi-hemispherical epilepsy or affecting multiple lobes
- Severe mental retardation (IQ \< 50)
- Lack of French-language skills
- Contraindications to MRI
- Congenital pathology altering cerebral connectivity
- Parenchymal brain lesions
- Unilateral or bilateral blindness
- Unilateral or bilateral deafness
- Autistic disorders
Interested in this trial?
Get notified about updates and connect with the research team.
Interventions
Intracerebral electroencephalogram (EEG) will be analysed to quantify the intensity of epileptic discharge (the epileptogenicity index) on each electrode contact (only for children with focal epilepsy).
We will perform Diffusion Tensor imaging in order to relate tractography measures to seizure recordings. Loss of connectivity (or disconnections) will be determined with diffusion tractography for each brain region. Then we will correlate the degree of epileptogenicity with the number of disconnections.
The language assessment will be adapted to the age of the child, with a predominant neuropsychological component.
Locations(1)
View Full Details on ClinicalTrials.gov
For the most up-to-date information, visit the official listing.
NCT03268824