Journal ArticleDOI
Developmental Aspects of Epileptogenesis
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TLDR
It is suggested that normal developmental features of synaptic development make the immature brain more excitable than the adult brain and may contribute to epileptogenesis.Abstract:
Several factors may contribute to the propensity for the developing brain to have seizures and develop epilepsy. Hypersynchrony of neuronal circuits contributes to the seizure potential and several neurobiological features of the immature brain may support synchronized neuronal firing. The immature cerebral cortex and hippocampus have an increased density of synapses compared to adults and also a higher density of gap junctions and of excitatory amino acid receptors. Enhanced regenerative responses to injury in the developing brain may also contribute to the formation of abnormal hippocampal connections that support epilepsy. Molecular mechanisms that contribute to enhanced synaptic plasticity in the child's brain can also contribute to epileptogenesis in certain circumstances. The phenomenon of kindling, where repeated electrical stimulation of neuronal circuits leads to the development of epileptic seizures, is easily elicited in young animals. Long-term potentiation (LTP), where repeated synaptic stimulation leads to a reduced threshold for activation of that pathway and enhanced postsynaptic potentials, is much more robust in the immature cerebral cortex and may contribute to kindling and epileptogenesis. Age related enhancement of N-methyl-D-aspartate-type glutamate receptors, which are important for the activity dependent plasticity in the developing brain, appears to participate in LTP. This information suggests that normal developmental features of synaptic development make the immature brain more excitable than the adult brain and may contribute to epileptogenesis.read more
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Technology Insight: noninvasive brain stimulation in neurology—perspectives on the therapeutic potential of rTMS and tDCS
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Epilepsy in the developing brain: lessons from the laboratory and clinic.
TL;DR: Age‐related differences in response to GABAergic agents provide further evidence that the pathophysiology of seizures in the immature brain differs from that in the mature brain.
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Neuropeptide-mediated excitability : a key triggering mechanism for seizure generation in the developing brain
TL;DR: Converging data indicate that activation of expression of CRH constitutes an important mechanism for generating developmentally regulated, triggered seizures, with considerable clinical relevance.
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Kainate receptors in epilepsy and excitotoxicity.
P. Vincent,Christophe Mulle +1 more
TL;DR: Evidence that KARs are the main targets of KA to produce the epileptogenic and excitotoxic effects of K a and KA analogs is presented, and recent findings proposing K ARs as targets of antiepileptic drugs and neuroprotective agents are reported.
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Molecular neuropathology of human mesial temporal lobe epilepsy.
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TL;DR: The after‐effects of repetitive stimulation of the perforant path fibres to the dentate area of the hippocampal formation have been examined with extracellular micro‐electrodes in rabbits anaesthetized with urethane.
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Developmental and regional expression in the rat brain and functional properties of four NMDA receptors.
TL;DR: Recombinant binary NR1-NR2 channels show comparable Ca2+ permeabilities, but marked differences in voltage-dependent Mg2+ block and in offset decay time constants, which provide a basis for NMDA channel heterogeneity in the brain.
Journal ArticleDOI
Calcium signaling in neurons: molecular mechanisms and cellular consequences
TL;DR: In this article, the authors have shown that, depending on the route of entry into a neuron, calcium differentially affects processes that are central to the development and plasticity of the nervous system, including activitydependent cell survival, modulation of synaptic strength, and calcium mediated cell death.
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Physiological and pathophysiological roles of excitatory amino acids during central nervous system development
TL;DR: Potential therapeutic approaches may be rationally devised based on recent information about the developmental regulation of EAA receptors and their involvement in the pathogenesis of these disorders.
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Changing subunit composition of heteromeric NMDA receptors during development of rat cortex
TL;DR: Direct evidence is presented that NMDA receptors exist in rat neocortex as heteromeric complexes of considerable heterogeneity, some containing both NR2A and NR2B subunits.