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Human seizures couple across spatial scales through travelling wave dynamics

Martinet L-E, G. Fiddyment, J. R. Madsen, E. N. Eskandar, W. Truccolo, U. T. Eden, S. S. Cash () and M. A. Kramer ()
Additional contact information
Martinet L-E: Massachusetts General Hospital
G. Fiddyment: Graduate Program in Neuroscience, Boston University
J. R. Madsen: Boston Children's Hospital, Harvard Medical School
E. N. Eskandar: Massachusetts General Hospital
W. Truccolo: Brown University
U. T. Eden: Boston University
S. S. Cash: Massachusetts General Hospital
M. A. Kramer: Boston University

Nature Communications, 2017, vol. 8, issue 1, 1-13

Abstract: Abstract Epilepsy—the propensity toward recurrent, unprovoked seizures—is a devastating disease affecting 65 million people worldwide. Understanding and treating this disease remains a challenge, as seizures manifest through mechanisms and features that span spatial and temporal scales. Here we address this challenge through the analysis and modelling of human brain voltage activity recorded simultaneously across microscopic and macroscopic spatial scales. We show that during seizure large-scale neural populations spanning centimetres of cortex coordinate with small neural groups spanning cortical columns, and provide evidence that rapidly propagating waves of activity underlie this increased inter-scale coupling. We develop a corresponding computational model to propose specific mechanisms—namely, the effects of an increased extracellular potassium concentration diffusing in space—that support the observed spatiotemporal dynamics. Understanding the multi-scale, spatiotemporal dynamics of human seizures—and connecting these dynamics to specific biological mechanisms—promises new insights to treat this devastating disease.

Date: 2017
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Citations: View citations in EconPapers (3)

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Persistent link: https://EconPapers.repec.org/RePEc:nat:natcom:v:8:y:2017:i:1:d:10.1038_ncomms14896

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DOI: 10.1038/ncomms14896

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