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The most common forms of acquired epilepsies arise following acute brain insults such as traumatic brain injury, stroke, or central nervous system infections. Treatment is effective for only 60%‐70% of patients and remains symptomatic despite decades of effort to develop epilepsy prevention therapies. Recent preclinical efforts are focused on likely primary drivers of epileptogenesis, namely inflammation,...
A widely accepted hypothesis holds that there is a seizure-free, pre-epileptic state, termed the “latent period”, between a brain insult, such as traumatic brain injury or stroke, and the onset of symptomatic epilepsy, during which a cascade of structural, molecular, and functional alterations gradually mediates the process of epileptogenesis. This review, based on recent data from both animal models...
PurposeIn humans, traumatic brain injury (TBI) is one of the most common causes of acquired (symptomatic) epilepsy, but as yet there is no treatment to prevent the development of epilepsy after TBI. Animal models of posttraumatic epilepsy (PTE) are important to characterize epileptogenic mechanisms of TBI and to identify clinically effective antiepileptogenic treatments. The prevalence and phenomenology...
Epilepsy research is undergoing a conceptual shift that is moving away from preventing seizures to preventing epilepsy by treatments that modify the epileptogenic process induced by a variety of brain insults. Evidence from animal experiments suggests that epilepsy prevention or modification is possible, but translating laboratory findings into successful therapies will require more scientific discoveries...
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