Grey matter heterotopia: what EEG-fMRI can tell us about epileptogenicity of neuronal migration disorders

doi:10.1093/brain/awh710

Brain Advance Access originally published online on December 9, 2005
Brain 2006 129(2):366-374; doi:10.1093/brain/awh710

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Grey matter heterotopia: what EEG-fMRI can tell us about epileptogenicity of neuronal migration disorders

Eliane Kobayashi, Andrew P. Bagshaw, Christophe Grova, Jean Gotman and François Dubeau

Montreal Neurological Institute and Hospital, McGill University, Montreal, Canada

Correspondence to: Eliane Kobayashi, MD, PhD, Montreal Neurological Institute and Hospital, McGill University, 3801 University Street, Montreal (PQ), Canada H3A 2B4 E-mail: eliane.kobayashi{at}mail.mcgill.ca

Grey matter heterotopia are commonly associated with refractoryepilepsy. Depth electrodes recordings have shown that epileptiformactivity can be generated within these lesions, and also ata distance in the neocortex. Heterotopia seem to be part ofa more complex circuitry involving also the surrounding anddistant cerebral cortex. Blood oxygenation level-dependent (BOLD)changes to interictal spikes using continuous EEG and functionalMRI (EEG-fMRI) can help to understand non-invasively the mechanismsof epileptogenicity in these patients. We studied 14 patientswith epilepsy and heterotopia using simultaneous recording ofEEG-fMRI. EEG was continuously acquired from inside the scannerduring 2 h sessions. Epileptic spikes were visually identifiedin the filtered EEG and each type of spike determined one EEG-fMRIstudy. We looked at positive (activation) and negative (deactivation)changes in the BOLD signal. Eleven patients had nodular heterotopiaand three band heterotopia. Four patients had more than onetype of spikes, with a total of 26 EEG-fMRI studies. We excludedthree with less than three spikes, and therefore a total of23 studies (12 with nodular and 11 with band heterotopia) wereanalysed. Nodular heterotopia: Activation was present in ninestudies, with involvement of the heterotopia or surroundingcortex in six, three of which had concomitant distant activation.Deactivation was also observed in nine studies, with involvementof the heterotopia and surrounding cortex in four, three ofwhich had concomitant distant deactivation. Band heterotopia:Activation was present in all 11 studies, and always involvedthe heterotopia and surrounding cortex, 9 of which had concomitantdistant activation. Deactivation was also observed in all 11studies, with involvement of both the heterotopia and surroundingcortex, in addition to distant deactivation in 5 studies. EEG-fMRIstudies reveal, non-invasively, metabolic responses in the heterotopiadespite the fact that spikes are generated in the neocortex.The responses, activation or deactivation, had different correlationwith the lesion and surrounding or distant cortex, activationreflecting intense neuronal activity, or excitation, and deactivationa possible distant (extra-lesional) inhibition. EEG-fMRI maybecome a useful tool to understand the epileptogenicity of suchmalformations.

Key Words: EEG-fMRI; interictal epileptiform discharges; malformations of cortical development

Abbreviations: BOLD = blood oxygenation level-dependent; fMRI = functional MRI

Received July 6, 2005. Revised October 26, 2005. Accepted October 31, 2005.

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