English

Seizure intervention via diffusion mechanisms

Quantitative Methods 2019-11-27 v1 Neurons and Cognition

Abstract

We begin by demonstrating that the neuronal state equation from Dynamic Causal Modelling takes on the form of the discretized Fokker-Planck equation upon the inclusion of local activity gradients within a network. Using the Jacobian of this modified neuronal state equation, we show that an initially unstable system can be rendered stable via a decrease in diffusivity. Therefore, if a node within the system is known to be unstable due to a tendency toward epileptic seizures for example, then our results indicate that intervention techniques should take the counter-intuitive approach of mirroring activity in the nodes immediately surrounding a pathological region - effectively fighting seizures with seizures. Finally, using a two-region system as an example, we show that one can also tune diffusivity in such a way as to allow for the suppression of oscillatory activity during epileptic seizures.

Keywords

Cite

@article{arxiv.1911.11409,
  title  = {Seizure intervention via diffusion mechanisms},
  author = {Erik D. Fagerholm and Rosalyn J. Moran and Robert Leech},
  journal= {arXiv preprint arXiv:1911.11409},
  year   = {2019}
}
R2 v1 2026-06-23T12:27:23.743Z