UMLS:C0038220 - FACTA Search

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Query: UMLS:C0038220 (status epilepticus)
7,272 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Bicuculline-induced status epilepticus was found to be associated with increased amounts of free fatty acids and diacylglycerols in the rat cerebrum. The predominant fatty acid in both lipid pools was arachidonic acid. The accumulation of arachidonoyl-diglycerols decreased at the time of and during behavioral seizures induced by bicuculline, while the amount of free arachidonic acid appeared to increase. We propose a metabolic relationship between these lipids to explain the described changes. The similarities between the composition of the lipid pools and the fatty acid composition of phosphatidylinositol support the hypothesis that these changes may be a result of a convulsion-activated degradation of this phospholipid from excitable membranes.
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PMID:Arachidonic acid and arachidonoyl-diglycerols increase in rat cerebrum during bicuculline-induced status epilepticus. 681 64

1. Kainate treatment preferentially kills dentate hilar neurons and CA3 pyramidal cells and ultimately leads to a chronic epileptic state. Bicuculline-induced epileptiform bursts were studied to test the hypothesis that multiple kainate injections and consequent status epilepticus would lead-after weeks to months of recovery-to prolonged synchronous afterdischarges in the isolated CA1 area of rat hippocampal slices, as would be expected if new recurrent excitatory circuits had formed. 2. Synaptic responses evoked in CA1 pyramidal cells of rats injected subcutaneously with kainate (10 hourly injections, 5 mg/kg each) 24-316 days before the slice experiment were compared with responses in slices from untreated and saline-injected controls. The maximal response to stratum radiatum stimulation in normal solution consisted of two to eight population spikes. 3. When gamma-aminobutyric acid-A receptor-mediated inhibition was reduced with bicuculline, synchronized burst afterdischarges after the initial stimulation-evoked burst, similar to the type of activity described in area CA3 under conditions where inhibition is impaired, occurred in 23% of slices. 4. The prolonged synchronized burst afterdischarges in the isolated CA1 area of kainate-treated rats were associated with large excitatory postsynaptic potentials (EPSPs). These prolonged bursts were not graded with the stimulus intensity; rather, they were triggered in an all-or-none manner, even though there was some variability across bursts. The bursts of population spikes also were correlated with subthreshold EPSPs. 5. Slices that had synchronized burst afterdischarges had significantly more damage in area CA3 than slices without afterdischarges. 6. The data indicate that kainate-induced damage in CA3 can lead to prolonged synchronous afterdischarges, even after CA1 is surgically isolated from the CA3 area. Because the repetitive bursts during the prolonged and synchronous afterdischarges were associated with large EPSPs, these data suggest that kainate-induced damage to CA3 and subsequent degeneration of synaptic terminals in the CA1 area causes the formation of new recurrent excitatory circuits that could be involved in the development of chronic epilepsy.
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PMID:Spontaneous and stimulation-induced synchronized burst afterdischarges in the isolated CA1 of kainate-treated rats. 889 98

Pilocarpine, a muscarinic agonist, produces status epilepticus that is associated with the later development of chronic recurrent seizures. When applied to rat hippocampal slices, pilocarpine (10 microM) produced brief (<200 ms) epileptiform discharges that resembled interictal activity that occurs between seizures, as well as more prolonged synchronous neuronal activation that lasted seconds (3-20 s), and was comparable to ictal or seizures-like discharges. We assessed the factors that favored ictal patterns of activity and determined the biophysical properties of the ictal discharge. The probability of observing ictal discharges was increased when extracellular potassium ([K+]o) was increased from 5 to 7.5 mM. Raising [K+]o to 10 mM resulted in loss of ictal patterns and, in 20 of 34 slices, desynchronization of epileptiform activity. Making the artificial cerebrospinal fluid (ACSF) hyposmotic favored ictal discharges at 5 mM [K+]o, but shifted 7.5 mM [K+]o ACSF patterns to interictal discharges or desynchronized activity. Conversely, increasing osmolality suppressed ictal patterns. The pilocarpine-induced ictal discharges were blocked by atropine (1 microM, n = 5), a muscarinic antagonist, and pirenzepine (1 microM, n = 6), a selective M1 receptor antagonist. Kainate/alpha-amino-3-hydroxy-5-methyl-4-isoxazoleproprionic acid receptor blockade stopped all epileptiform activity (n = 8). The N-methyl--aspartate antagonist ,-2-amino-5-phosphonovaleric acid (100 microM, n = 34) did not change the pattern of epileptiform activity but significantly increased the rate of interictal discharges and prolonged the duration of ictal discharges. The ictal discharge was characterized intracellularly by a depolarization that was associated with action potential generation and persisted as a membrane oscillation of 4-10 Hz. The ictal oscillations reversed in polarity at -22.7 +/- 2.2 mV (n = 11) with current-clamp recordings and -20.9 +/- 3.1 mV (n = 7) with voltage-clamp recordings. The reversal potential of the ictal discharge in the presence of the gamma-aminobutyric acid-A blocker bicuculline (10 microM, n = 6) was -2.2 +/- 2.6 mV and was significantly different from that measured without bicuculline. Bicuculline added to 7.5 mM [K+]o and 10 microM pilocarpine did not cause epileptiform activity to change pattern but significantly increased the rate of interictal discharges and prolonged the ictal discharge duration. Both synaptic and nonsynaptic mechanisms are important for the generation of ictal patterns of epileptiform activity. Although the synchronous epileptiform activity produced by pilocarpine required fast glutamate-mediated synaptic transmission, the transition from an interictal to ictal pattern of activity depended on [K+]o and could be influenced by extracellular space.
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PMID:Ictal epileptiform activity in the CA3 region of hippocampal slices produced by pilocarpine. 963 5

This study focused on the evaluation of anticonvulsant properties of isonicotinic acid benzylamide (iso-Nic-BZA) in numerous experimental seizure models (maximal electroshock [MES]-, bicuculline [BIC]-, pentylenetetrazole [PTZ]-, pilocarpine [PILO]-, alpha-amino-3-hydroxy-5-methyl-4-isoxazolepropionic acid [AMPA]-, kainic acid [KA]- and N-methyl-d-aspartic acid [NMDA]-induced seizures). Moreover, acute adverse-effect profile of the agent with respect to impairment of motor coordination was assessed in animals subjected to the chimney test. The evaluation of time-course and dose-response relationships for iso-Nic-BZA provided evidence that the compound produced the peak to maximum antielectroshock action and acute adverse effects at 5min after its systemic (i.p.) administration. Iso-Nic-BZA exerted a clear-cut anticonvulsant action against maximal electroshock-induced seizures in mice and its ED(50) value was 70.6 (56.4-88.4)mg/kg. The assessment of acute adverse effects in the chimney test revealed that the agent produced acute neurotoxic effects and its TD(50) value was 135.6 (108.8-169.0)mg/kg. Additionally, iso-Nic-BZA showed the anticonvulsant activity in numerous chemically-induced seizures (AMPA-, BIC-, KA-, and PTZ-evoked clonic convulsions), remaining virtually ineffective (at doses up to 200mg/kg) in PILO- and NMDA-induced seizures in mice. Based on this study, one can conclude that iso-Nic-BZA due to the short time to peak of its maximum anticonvulsant effects (5min after its i.p. administration), deserves more attention as a potential antiepileptic drug for patients in status epilepticus.
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PMID:Characterization of the anticonvulsant profile of isonicotinic acid benzylamide in various experimental seizure models in mice. 1754 62

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