Studying network mechanisms using intracranial stimulation in epileptic patients

Olivier David¹, Julien Bastin, Stéphan Chabardès, Lorella Minotti, Philippe Kahane

Affiliations

PMID: 21060722
PMCID: PMC2972750
DOI: 10.3389/fnsys.2010.00148

Studying network mechanisms using intracranial stimulation in epileptic patients

Olivier David et al. Front Syst Neurosci. 2010.

. 2010 Oct 20:4:148.

doi: 10.3389/fnsys.2010.00148. eCollection 2010.

Authors

Olivier David¹, Julien Bastin, Stéphan Chabardès, Lorella Minotti, Philippe Kahane

Affiliation

¹ INSERM U836, Grenoble Institut des Neurosciences Grenoble, France.

PMID: 21060722
PMCID: PMC2972750
DOI: 10.3389/fnsys.2010.00148

Abstract

Patients suffering from focal drug-resistant epilepsy who are explored using intracranial electrodes allow to obtain data of exceptional value for studying brain dynamics in correlation with pathophysiological and cognitive processes. Direct electrical stimulation (DES) of cortical regions and axonal tracts in those patients elicits a number of very specific perceptual or behavioral responses, but also abnormal responses due to specific configurations of epileptic networks. Here, we review how anatomo-functional brain connectivity and epilepsy network mechanisms can be assessed from DES responses measured in patients. After a brief summary of mechanisms of action of brain electrical stimulation, we recall the conceptual framework for interpreting DES results in the context of brain connectivity and review how DES can be used for the characterization of functional networks, the identification of the seizure onset zone, the study of brain plasticity mechanisms, and the anticipation of epileptic seizures. This pool of exceptional data may be underexploited by fundamental research on brain connectivity and leaves much to be learned.

Keywords: cognition; connectivity; electroencephalography; epilepsy; networks; neurostimulation; plasticity.

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Studying network mechanisms using intracranial stimulation in epileptic patients

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Studying network mechanisms using intracranial stimulation in epileptic patients

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