Responses to single pulse electrical stimulation identify epileptogenesis in the human brain in vivo

doi:10.1093/brain/awf187

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Brain, Vol. 125, No. 8, 1709-1718, August 2002
© 2002 Guarantors of Brain

Responses to single pulse electrical stimulation identify epileptogenesis in the human brain in vivo

A. Valentín¹, M. Anderson¹, G. Alarcón¹^,2, J. J. García Seoane², R. Selway¹, C. D. Binnie¹ and C. E. Polkey¹

¹ Division of Neuroscience, Guy’s, King’s and St. Thomas’ School of Medicine, King’s College Hospital, London, UK and ² Facultad de Medicina, Universidad Complutense, Madrid, Spain

Correspondence to: Gonzalo Alarcon MD PhD, Department of Clinical Neurophysiology, King’s College Hospital, Denmark Hill, London SE5 9RS, UK E-mail: galarcon{at}aol.com

The aim of the present study was to investigate in vivo corticalexcitability in the human brain. We studied 45 consecutive patientswith refractory epilepsy in whom subdural or intracerebral electrodeswere implanted for assessment prior to epilepsy surgery. Wecompared cortical responses to single pulse stimulation (upto 8 mA, 1 ms duration) in areas where seizure onsetoccurred, with responses recorded elsewhere. Two main typesof responses were seen: (i) ‘early responses’, spikesand/or slow waves starting within 100 ms after the stimuluswhich were observed in most regions in all patients; and (ii)‘delayed responses’, spikes or sharp waves occurringbetween 100 ms and 1 s after stimulation which wereseen in some regions in 27 patients. The distributionsof early and delayed responses were compared with the topographyof seizure onset. Whereas early responses were seen in mostregions and seem to be a normal response of the cortex to singlepulse stimulation, the distributions of delayed responses weresignificantly associated with the regions where seizure onsetoccurred. We conclude that the presence of delayed responsescan identify regions of hyperexcitable cortex in the human brain.The study of delayed responses may improve our understandingof the physiology and dynamics of neuronal circuits in epileptictissue and may have an immediate clinical application in assessmentof candidates for surgical treatment of epilepsy.

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