UMLS:C0036572 - FACTA Search

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Query: UMLS:C0036572 (seizures)
80,221 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Glutamate NMDA receptor has been implicated in brain developmental processes as well as in excitotoxicity and seizure mediation. A previous study has shown that an acute episode of seizures for 30 min in rats altered NMDA receptor characteristics, mainly in the very immature animal. In order to assess whether receptor modifications may also account for long-lasting cerebral disabilities, medium- and long-term consequences of repeated seizures in developing rats on brain NMDA receptor properties were investigated. Seizures were induced once a day for 3 consecutive days, either from post-natal day 5 (P5) to P7 or from P15 to P17. NMDA receptors were then analysed at P15, P25 and P60 (adulthood) by measuring specific binding of [3H]MK-801 on brain membrane preparations. In addition, allosteric modulation of NMDA receptors by exogenous glutamate and glycine was investigated. Seizures from P5 to P7 led to a 22% increase in the density of [3H]MK-801 binding sites measured at P15, but did not affect NMDA receptor density or affinity at P25 or P60. P15-P17 seizures led to a 21% decrease in the density of binding sites and to a 33% decrease in receptor dissociation constant at P25, while they were without effect at P60. Moreover, P5-P7 and P15-P17 seizures were both associated with a suppression of the glutamate/glycine-induced receptor activation at P60. These modifications might account for long-term alterations in cerebral excitability or plasticity after early convulsive disorders, with regards to altered cognitive capacities, epileptogenesis and brain susceptibility to recurrent seizures.
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PMID:Repeated seizure-associated long-lasting changes of N-methyl-D-aspartate receptor properties in the developing rat brain. 1047 71

Status epilepticus (SE) has a high mortality and morbidity rate in children. Disturbances in learning and memory are frequently associated with SE although it is not clear when the cognitive deficits occur. If cognitive dysfunction occurs immediately following the seizure, the window of opportunity for therapeutic intervention is limited. The first goal of this study was to determine the timing of cognitive dysfunction following SE in weanling rats. As there is evidence that enriching the environment can improve cognitive and motor deficits following brain injury, our second goal was to determine whether environmental enrichment improves cognitive function following SE. Rats underwent lithium-pilocarpine-induced SE at postnatal (P) day 20 and were then tested for visual-spatial memory in the water maze at P22, P25, P30, or P50. Rats with SE performed significantly worse in the water maze than control rats at all time points. Once the time-courses of visual-spatial memory deficits were determined, a second group of P20 rats were subjected to SE and were then placed in an enriched environment (enriched group) or remained in standard cages in the vivarium (nonenriched group) for 28 days. Following environmental manipulation, the animals were tested in the water maze. Rats housed in an enriched environment following the SE performed substantially better in the water maze than rats housed in standard cages. However, no differences were found between the enriched and nonenriched groups in EEG or histological evaluation. Although SE results in cognitive impairment within days of the seizure, housing in an enriched environment after SE has a beneficial effect on cognitive performance in rats.
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PMID:Memory impairment following status epilepticus in immature rats: time-course and environmental effects. 1219 94

It remains under dispute whether status epilepticus (SE) in the perinatal period or early childhood or the underlying neuropathology is the cause of functional impairment later in life. The present study examined whether SE induced by LiCl-pilocarpine in normal immature brain (at the age of 12 or 25 days; P12 or P25) causes cognitive decline and epileptogenesis, and the data were compared to those of rats undergoing SE as adults. Rats in the P12 group had impaired memory (repeated exposure to open-field paradigm) and emotional behaviour (lower proportion of open-arm entries and higher incidence of risk assessment period in elevated plus-maze) when assessed 3 months after SE, although not as severe as in the older age groups. Importantly, video-electroencephalography monitoring 3 months after SE demonstrated that 25% of rats in the P12 and 50% in P25 group developed spontaneous seizures. Only nonconvulsive seizures (ictal activity in hippocampus accompanied by automatisms) were recorded in the P12 group whereas rats in the P25 group exhibited clonic convulsions. The present findings indicate that SE is harmful to the immature brain as early as P12, which might be compared with early infancy in humans.
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PMID:Status epilepticus in immature rats leads to behavioural and cognitive impairment and epileptogenesis. 1521 82

This study presents a model of chronic, recurrent, spontaneous seizures in the intact isolated hippocampal preparation from mice aged P8-P25. Field activity from the CA1 pyramidal cell layer was recorded and recurrent, spontaneous seizure-like events (SLEs) were observed in the presence of low Mg2+ (0.25 mM) artificial cerebrospinal fluid (ACSF). Hippocampi also showed interictal epileptiform discharges (IEDs) of 0.9-4.2 Hz occurring between seizures. No age-specific differences were found in SLE occurrence (2 SLEs per 10 min, on average), duration, and corresponding frequencies. After long exposure to low Mg2+ ACSF (>3 h), SLEs were completely reversible within minutes with the application of normal (2 mM Mg2+) ACSF. The AMPA antagonist, CNQX, blocked all epileptiform activity, whereas the NMDA antagonist, APV, did not. The gamma-aminobutyric acid (GABA)A antagonist, bicuculline, attenuated and fragmented SLEs, implicating interneurons in SLE generation. The L-type Ca2+ blocker, nifedipine, enhanced epileptiform activity. Analysis of dual site recordings along the septotemporal hippocampus demonstrated that epileptiform activity began first in the temporal pole of the hippocampus, as illustrated by disconnection experiments. Once an SLE had been established, however, the septal hippocampus was sometimes seen to lead the epileptiform activity. The whole hippocampus with intact local circuitry, treated with low Mg2+, provides a realistic model of recurrent spontaneous seizures, which may be used, in normal and genetically modified mice, to study the dynamics of seizures and seizure evolution, as well as the mechanisms of action of anti-epileptic drugs and other therapeutic modalities.
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PMID:Model of frequent, recurrent, and spontaneous seizures in the intact mouse hippocampus. 1539 Jan 77

EEG and motor phenomena elicited by stimulation of sensorimotor cortex were used to study the effects of chronic postnatal administration of caffeine (10 and 20 mg/kg, s.c. from P7 to P11) in rats. Rhythmic electrical stimulation was applied to 12-, 18-, 25- and 67-day-old rats with implanted electrodes. Animals with the higher dose of caffeine exhibited increased thresholds for elicitation of stimulation-bound movements, spike-and-wave afterdischarges (ADs) and clonic seizures accompanying these ADs at the age of 12 days and decreased duration of spike-and-wave ADs at postnatal days (P) 18 and 25. In contrast, chronic administration of the lower dose of caffeine resulted in a proconvulsant effect expressed as a significant prolongation of spike-and-wave ADs in P12, P18 and P25 groups as well as of the second "limbic" type of ADs (significant only in P12 and P25). The biphasic action of chronic postnatal caffeine treatment was transient and was no longer present in 67-day-old rats. Our results demonstrate that early postnatal caffeine exposure results in either pro- or anticonvulsant effect during brain maturation in relation to the dose used. Caffeine is a mixed adenosine receptor antagonist, therefore its effects could be due to a different action on adenosine receptor subtypes; an additional mechanism of action cannot be excluded.
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PMID:Biphasic effect of chronic postnatal caffeine treatment on cortical epileptic afterdischarges during ontogeny in rats. 1651 71

The direct injection of endothelin-1 (ET-1) into brain parenchyma was recently suggested as a suitable model of stroke. The present study was designed to assess whether intrahippocampal injection of ET-1 in immature rats causes neurodegeneration and immediate seizures, and results in impairment of motor development, cognitive decline, epilepsy and chronic hippocampal lesion. ET-1 was injected unilaterally into the dorsal hippocampus in doses of 20 or 40 pmol at the age of 12 (P12) or 25 (P25) days. Video-electroencephalographic monitoring performed during 100 min after the injection of ET-1 demonstrated the development of convulsive epileptic seizures in 75-100% of animals of individual age-and-dose groups. Long-term behavioral follow-up did not reveal impairment of motor development in any dose-and-age group. At 2 months after ET-1 injection, impairment of spatial memory occurred only in rats with 40 pmol of ET-1 at P12. At 3 months after ET-1 injection spontaneous electrographic seizures occurred in 62.5-100% animals of both ages with no relation to the dose used. Seizures were always non-convulsive. The total seizure duration per 24 h was higher in the P12 than the P25 group, suggesting more severe epilepsy. The extent of the hippocampal lesion increased with the dose of ET-1 and was significantly higher in the P12 than the P25 group. The severity of the ET-1-induced lesion correlated positively with total seizure duration per 24 h at both ages. Our results document that early intrahippocampal injection of ET-1 results in lesion development and both immediate seizures and chronic epilepsy in either age group. Cognitive impairment occurred only in rats with ET-1 injection at P12.
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PMID:Intrahippocampal injection of endothelin-1 in immature rats results in neuronal death, development of epilepsy and behavioral abnormalities later in life. 1683 44

An enriched environment can enhance brain recovery in animals with early-life status epilepticus (SE). The purpose of this study was to determine the effects of early-life SE on spatial memory and hippocampal extracellular signal-regulated kinase (ERK) level, and the possible therapeutic effects of the enriched environment. Rats were assigned randomly to four groups: (1) control rats (nonenriched control); (2) control rats housed in an enriched environment from Postnatal Day (P) 25 to P40 (enriched control); (3) rats in which SE was induced with lithium-pilocarpine (Li-PC) at P21 (nonenriched SE); and (4) rats in which SE was induced with Li-PC at P21 and then housed in an enriched environment from P25 to P40 (enriched SE). As adults, the rats underwent spatial learning and memory tests in the Morris water maze between P50 and P55. At P55, subsets of animals were evaluated for expression of hippocampal ERK1/2 phosphorylation immediately following completion of the Morris water maze. At ~P100, another set of animals was tested for seizure threshold. When studied as adults, only the nonenriched SE group had a spatial memory deficit. The nonenriched SE group also exhibited lower levels of phosphorylated ERK2 as compared with the nonenriched control, enriched control, and enriched SE groups. Both the nonenriched SE and enriched SE groups had reduced seizure thresholds as compared with the nonenriched control and enriched control groups. Results from this study demonstrate that an enriched environment improves spatial memory in rats subjected to early-life SE, possibly through upregulation of phosphorylated ERK2 in the hippocampus. However, an enriched environment has no effect on seizure threshold.
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PMID:An enriched environment improves cognitive performance after early-life status epilepticus accompanied by an increase in phosphorylation of extracellular signal-regulated kinase 2. 1782 56

The goal of this study was to develop a new model of ischemia-induced seizures in immature rats using injection of vasoconstrictor Endothelin-1 (ET-1) into the brain. ET-1 (10, 20, or 40 pmol) was infused into the left dorsal hippocampus of freely moving Wistar rats 12 (P12) and 25 (P25) days old. Animals were then video/EEG-monitored for 100 min and monitoring was repeated 22 h later. Parameters of electrographic seizures (frequency and mean duration) as well as pattern of their behavioral correlates were evaluated. The pattern of behavioral seizures was used to develop model-specific scoring system. Cresyl violet and Fluoro Jade-B-staining were used to evaluate brain damage. Extension of the lesion was correlated with seizure severity. After ET-1-injection, seizures occurred in 83-100% animals of all age-and-dose groups and persisted for 24 h except P12 rats with 10 pmol. There were no differences in average seizure duration (18-40 s) or seizure frequency (3-7 seizures/100 min) among individual dose-groups. Between the 1st and 2nd observation period, total seizure duration decreased in 71% of P12 and 47% of P25 rats. Electrographic seizure activity was most frequently accompanied by clonus, incidence of more severe convulsions (barrel rolling or generalized clonic seizures) increased with dose of ET-1. Morphologic examination did not reveal any dose-related difference in damage severity, hippocampal damage was however more extensive in P12 compared to P25 animals. Seizure severity correlated positively with severity of the damage in both age groups. Our study presents focal injection of ET-1 into the brain as a new and practical model of ischemia-induced seizures in immature rats.
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PMID:Intrahippocampal injection of endothelin-1: a new model of ischemia-induced seizures in immature rats. 1791 May 75

Neurochemical studies document involvement of benzodiazepine (BDZ) and mu opioid receptors in seizure development and their possible age-related role during epileptogenesis. To study developmental changes of this role LiCl/pilocarpine status epilepticus (SE) was induced in P12, P25 and/or adult rats. This SE leads to epilepsy in all adult and subpopulation of immature rats. Using in vitro autoradiography, benzodiazepine (BDZ) and mu opioid receptor binding was evaluated 1 week (early phase of epileptogenesis) and 3 months (chronic phase) after SE in 27 brain structures involved in seizure generation and spread (amygdala, hippocampus, basal ganglia and thalamic nuclei). The pattern of receptor binding changes was related to the age at SE, interval after SE and to brain structures. Enhanced BDZ binding was found 1 week after SE in many cortical areas in P12 and also in the amygdala complex and dentate gyrus in both P12 and P25. No changes of BDZ binding occurred in adults at that time, but 3 months after SE a decrease of binding appeared in all evaluated areas in both adult and P25 but not P12 rats. This decrease did not reflect neuronal loss. mu opioid receptors were less significantly affected but clear tendency to decrease binding occurred in adult rats in various cortical, amygdala and thalamic regions early after SE. Changes were less expressed in immature rats. Our data support the hypothesis that age-related changes of receptor properties may participate in different functional consequences of SE including epileptogenesis (more common in older age groups) and behavioral changes.
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PMID:Effects of LiCl/pilocarpine-induced status epilepticus on rat brain mu and benzodiazepine receptor binding: regional and ontogenetic studies. 1791 68

Status epilepticus (SE) in developing rats leads to neuronal degeneration in many brain structures including neocortex but the functional consequences of cortical damage were studied only exceptionally. Lithium-pilocarpine SE was elicited in 12- (P12) and 25-day-old (P25) rats, convulsions were interrupted after 2h by paraldehyde. Cortical electrodes were implanted 3, 6, 9, 13 and/or 26 days after SE. Low-frequency stimulation of sensorimotor cortex was repeated with at least 10-min intervals with a stepwise increasing intensity (0.2-14 mA). Thresholds for movements elicited by stimulation, spike-and-wave afterdischarges (ADs), clonic seizures, mixed ADs (transition into a limbic type of ADs) and recurrent ADs as well as duration of ADs were evaluated. The first three phenomena were not influenced by SE with the exception of lower thresholds for movements during stimulation. Transition into limbic seizures and recurrent seizures were delayed in both age groups and threshold intensities for limbic ADs were at some intervals higher in SE than in control animals. Duration of ADs was changed only at short intervals after SE; it was shortened at 3 and 6 days in P25 and 3 days in P12 rats, respectively. P12 group then exhibited a transient increase in duration of ADs 6 days after SE. Our results did not prove a higher cortical excitability after SE in either age group. On the contrary, there were some signs of a decreased excitability.
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PMID:Changes of cortical epileptic afterdischarges after status epilepticus in immature rats. 1817 84

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