A Unifying Explanation of Primary Generalized Seizures Through Nonlinear Brain Modeling and Bifurcation Analysis

doi:10.1093/cercor/bhj072

Cerebral Cortex Advance Access published online on November 9, 2005
Cerebral Cortex, doi:10.1093/cercor/bhj072

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Article

A Unifying Explanation of Primary Generalized Seizures Through Nonlinear Brain Modeling and Bifurcation Analysis

M. Breakspear ¹^*, J. A. Roberts ², J. R. Terry ³, S. Rodrigues ³, N. Mahant ⁴, and P. A. Robinson ⁵

¹ School of Physics, University of Sydney, NSW 2006, Australia; Brain Dynamics Centre, Westmead Hospital and University of Sydney, Westmead, NSW 2145, Australia; School of Psychiatry, University of New South Wales, Randwick, NSW 2031, Australia; The Black Dog Institute, Hospital Road, Randwick, NSW 2031, Australia
² School of Physics, University of Sydney, NSW 2006, Australia
³ Department of Mathematical Sciences, Loughborough University, Loughborough, LE 113TU UK
⁴ Department of Neurology, Westmead Hospital, Westmead, NSW 2145, Australia
⁵ School of Physics, University of Sydney, NSW 2006, Australia; Brain Dynamics Centre, Westmead Hospital and University of Sydney, Westmead, NSW 2145, Australia

^* To whom correspondence should be addressed.
M. Breakspear, E-mail: mbreak{at}unsw.edu.au

Abstract

The aim of this paper is to explain critical features of thehuman primary generalized epilepsies by investigating the dynamicalbifurcations of a nonlinear model of the brain's mean fielddynamics. The model treats the cortex as a medium for the propagationof waves of electrical activity, incorporating key physiologicalprocesses such as propagation delays, membrane physiology, andcorticothalamic feedback. Previous analyses have demonstratedits descriptive validity in a wide range of healthy states andyielded specific predictions with regards to seizure phenomena.We show that mapping the structure of the nonlinear bifurcationset predicts a number of crucial dynamic processes, includingthe onset of periodic and chaotic dynamics as well as multistability.Quantitative study of electrophysiological data supports thevalidity of these predictions. Hence, we argue that the coreelectrophysiological and cognitive differences between tonic-clonicand absence seizures are predicted and interrelated by the globalbifurcation diagram of the model's dynamics. The present studyis the first to present a unifying explanation of these generalizedseizures using the bifurcation analysis of a dynamical modelof the brain.

Keywords: bifurcation; neural modeling; nonlinear dynamics; primary generalized epilepsy; time series analysis.

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