Frontiers in Neurology (Aug 2024)

Epilepsy insights revealed by intravital functional optical imaging

  • Matthew A. Stern,
  • Raymond Dingledine,
  • Robert E. Gross,
  • Robert E. Gross,
  • Ken Berglund

DOI
https://doi.org/10.3389/fneur.2024.1465232
Journal volume & issue
Vol. 15

Abstract

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Despite an abundance of pharmacologic and surgical epilepsy treatments, there remain millions of patients suffering from poorly controlled seizures. One approach to closing this treatment gap may be found through a deeper mechanistic understanding of the network alterations that underly this aberrant activity. Functional optical imaging in vertebrate models provides powerful advantages to this end, enabling the spatiotemporal acquisition of individual neuron activity patterns across multiple seizures. This coupled with the advent of genetically encoded indicators, be them for specific ions, neurotransmitters or voltage, grants researchers unparalleled access to the intact nervous system. Here, we will review how in vivo functional optical imaging in various vertebrate seizure models has advanced our knowledge of seizure dynamics, principally seizure initiation, propagation and termination.

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