Targeting Microglia to Prevent Post-Traumatic Epilepsy

Abstract

The purpose of this research project is to explore anti-epileptogenic strategies in and animal model of post-traumatic epilepsy (PTE) using lateral fluid percussion injury (LFPI). Our focus is on attenuating damaging effects of hyperexcitability in the brain induced by inflammation resulting from glial cell immune responses to trauma. We are exploring two drugs, MN166 and SLC022, that are known to suppress post-traumatic glial activation and thus inflammation to evaluate their effectiveness in preventing epileptogenesis in the LFPI model of PTE. In the first project year we developed a high-speed video/EEG recording and analysis system for rapid quantification of chronically recorded epileptiform activity in multiple (24-32) subjects. With this system we became expert in identifying epileptiform versus normal video/EEG activity in the rodent and discovered an important source of artifact currently being interpreted in other published reports as seizure activity. We developed a pilocarpine model of temporal lobe epilepsy to explore the effectiveness of glial cell (neuroimmune) attenuation in preventing or limiting epileptogenesis (development of epilepsy) in this rapidly developing model. We explored numerous changes in the LFPI model to produce earlier developing signs of epilepsy, increasing the probability of succeeding in our long-term study of epileptogenesis following traumatic brain injury. Perhaps the most important outcome of this work was the negative finding that much published work concerning PTE with the LFPI model has not properly examined controls. Both injured and uninjured rats display spike-wave discharge (SWD) that, unlike previous reports, are not seizures. The actual incidence of seizures with LFPI may be extremely low, suggesting the need for a better model.

Document Details

Document Type

Technical Report

Publication Date

Jul 01, 2014

Accession Number

ADA609622

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