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Human Temporal Lobe Epilepsy (human + temporal_lobe_epilepsy)

Distribution by Scientific Domains
Life Sciences60%
Medical Sciences40%

Selected Abstracts

Role of cortical dysplasia in epileptogenesis following prolonged febrile seizure

EPILEPSIA, Issue 9 2010
Kyung-Il Park
Summary Purpose:, Hippocampal sclerosis, characterized by prominent neuronal loss and reactive gliosis, is the most common pathology in human temporal lobe epilepsy (TLE). Although prolonged febrile convulsion (FC) is a risk factor of TLE, it is not clear whether FC provokes hippocampal sclerosis and subsequent TLE. Given that underlying brain lesions, such as cortical dysplasia (CD), in the immature brain predispose patients to FC, CD may link FC and TLE. However, the role of CD in epileptogenesis after FC is also unclear. Here, we investigated whether inborn CD increases the risk of later epilepsy induced by prolonged FC using a rat model. Methods:, Experimental CD was induced by in utero exposure of methylazoxymethanol (MAM). Rat pups from MAM-treated or control rats were then subjected to prolonged FC. We examined morphologic changes in the hippocampi with respect to neuronal loss, reactive gliosis, and synaptogenesis, and evaluated spontaneous recurrent seizures (SRS) by long-term video-EEG (electroencephalography). Results:, The MAM+FC group had a significantly lower hippocampal neuronal density in the CA1 and dentate hilus than other control groups. A robust increase in glial cells and synaptic reorganization was also detected in the MAM+FC groups. Furthermore, later SRS occurred in all rats in the MAM+FC group and in 50% and 25% of the rats in the FC-only and MAM-only group, respectively. The frequency and total duration of SRS was highest in the MAM+FC group. Discussion:, Our results suggest that preexisting CD in the immature brain augments the proepileptogenic effects of prolonged FC, leading to TLE. [source]

Rapid and long-term alterations of hippocampal GABAB receptors in a mouse model of temporal lobe epilepsy

EUROPEAN JOURNAL OF NEUROSCIENCE, Issue 8 2003
Andrea Straessle
Abstract Alterations of ,-aminobutyric acid (GABA)B receptor expression have been reported in human temporal lobe epilepsy (TLE). Here, changes in regional and cellular expression of the GABAB receptor subunits R1 (GBR1) and R2 (GBR2) were investigated in a mouse model that replicates major functional and histopathological features of TLE. Adult mice received a single, unilateral injection of kainic acid (KA) into the dorsal hippocampus, and GABAB receptor immunoreactivity was analysed between 1 day and 3 months thereafter. In control mice, GBR1 and GBR2 were distributed uniformly across the dendritic layers of CA1,CA3 and dentate gyrus. In addition, some interneurons were labelled selectively for GBR1. At 1 day post-KA, staining for both GBR1 and GBR2 was profoundly reduced in CA1, CA3c and the hilus, and no interneurons were visible anymore. At later stages, the loss of GABAB receptors persisted in CA1 and CA3, whereas staining increased gradually in dentate gyrus granule cells, which become dispersed in this model. Most strikingly, a subpopulation of strongly labelled interneurons reappeared, mainly in the hilus and CA3 starting at 1 week post-KA. In double-staining experiments, these cells were selectively labelled for neuropeptide Y. The number of GBR1-positive interneurons also increased contralaterally in the hilus. The rapid KA-induced loss of GABAB receptors might contribute to epileptogenesis because of a reduction in both presynaptic control of transmitter release and postsynaptic inhibition. In turn, the long-term increase in GABAB receptors in granule cells and specific subtypes of interneurons may represent a compensatory response to recurrent seizures. [source]

Isoform- and subcellular fraction-specific differences in hippocampal 14-3-3 levels following experimentally evoked seizures and in human temporal lobe epilepsy

JOURNAL OF NEUROCHEMISTRY, Issue 2 2006
Clara K. Schindler
Abstract 14-3-3 proteins are a family of signaling molecules involved in diverse cellular functions, which can mediate anti-apoptotic effects. Seizure-induced neuronal death may involve programmed (apoptotic) cell death pathways and is associated with a decline in brain 14-3-3 levels. Presently, we investigated the subcellular localization and effects of seizures on isoforms of 14-3-3 in rat hippocampus, and contrasted these to findings in human temporal lobe epilepsy (TLE). All brain isoforms of 14-3-3 were detected in the cytoplasmic compartment of rat hippocampus, while 14-3-3, and -, were also present in mitochondrial and microsome-enriched fractions. Focally evoked seizures in rats significantly reduced 14-3-3, levels within the microsome-enriched compartment at 4 h, with similar responses for 14-3-3,, while cytoplasm-localized 14-3-3,, -, and -, remained unchanged. Analysis of human autopsy control hippocampus revealed similar 14-3-3 isoform expression profiles. In TLE samples, the microsome-enriched fraction also showed differences, but here 14-3-3, and -, levels were higher than controls. TLE sample 14-3-3 isoform abundance within the cytoplasmic fraction was not different to controls. This study defines the subcellular localization of 14-3-3 isoforms in rat and human hippocampus and identifies the microsome-enriched fraction as the main site of altered 14-3-3 levels in response to acute prolonged and chronic recurrent seizures. [source]

Seizures in the intrahippocampal kainic acid epilepsy model: characterization using long-term video-EEG monitoring in the rat

ACTA NEUROLOGICA SCANDINAVICA, Issue 5 2009
R. Raedt
Objective,,, Intrahippocampal injection of kainic acid (KA) in rats evokes a status epilepticus (SE) and leads to spontaneous seizures. However to date, precise electroencephalographic (EEG) and clinical characterization of spontaneous seizures in this epilepsy model using long-term video-EEG monitoring has not been performed. Materials and Methods,,, Rats were implanted with bipolar hippocampal depth electrodes and a cannula for the injection of KA (0.4 ,g/0.2 ,l) in the right hippocampus. Video-EEG monitoring was used to determine habitual parameters of spontaneous seizures such as seizure frequency, severity, progression and day,night rhythms. Results,,, Spontaneous seizures were detected in all rats with 13 out of 15 animals displaying seizures during the first eight weeks after SE. A considerable fraction (35%) of the spontaneous seizures did not generalize secondarily. Seizure frequency was quite variable and the majority of the KA-treated animals had less than one seizure per day. A circadian rhythm was observed in all rats that showed sufficient seizures per day. Conclusions,,, This study shows that the characteristics of spontaneous seizures in the intrahippocampal KA model display many similarities to other SE models and human temporal lobe epilepsy. [source]