Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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

Chemically different classes of calcium channel blockers were examined in rats for their effects on behavior, tolerability and protection against maximal electroshock seizures (MES) and pentylenetetrazol (PTZ) induced seizures. In MES test at doses (mg/kg, ip) that were devoid of side effects, felodipine, 50, afforded 100% protection, while nimodipine, 5; pimozide, 10; and thioridazine, 25, showed 50 to 66% protection. Nifedipine, 10, and diltiazem, 50, showed 30 and 66% protection respectively, but were associated with side effects. Verapamil and loperamide were ineffective against MES and PTZ induced seizures. Nimodipine, 1 mg/kg, ip, was the most potent agent and produced 100% protection against PTZ. Equieffective doses were pimozide, 25, felodipine, 50, and thioridazine, 50. The rest of the calcium channel blockers showed marginal to moderate activity against chemoshock. The data obtained suggest that some calcium channel blockers possess anticonvulsant activity and may be considered as adjuvant therapeutic agents in epileptics refractory to conventional antiepileptic medication.
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PMID:Effect of calcium channel blockers on experimentally induced seizures in rats. 227 45

Brain damage after resuscitation from cardiac arrest is believed to be related to calcium influx in ischaemic neurons and to postischaemic calcium-dependent vasospasm. We therefore evaluated the potentially protective effects of the calcium-entry blocker nimodipine in a cardiopulmonary arrest model in the rat. Male Wistar rats were anaesthetized with ketamine (group I) or hexobarbital (group II) and subjected to a KCl-induced cardiac arrest during 7 min (group I) or 12 min (group II). Five minutes after resuscitation, the rats were treated intravenously in a randomized and blind fashion. Group I received either saline or 1 microgram.kg-1.min-1 or 5 micrograms.kg-1.min-1 of nimodipine and group II either saline or 1 microgram.kg-1.min-1 of nimodipine. Survival, occurrence of seizures and neurological status were assessed daily during 7 days after resuscitation. On day 7, the brains of the surviving rats were perfusion-fixed and a histopathological evaluation of the hippocampus was performed. Nimodipine, in the doses tested, had no beneficial influence on the 7 day survival rate, nor on the occurrence of seizures and the neurological and histopathological scores in the rats surviving after 7 days. With the highest dose of nimodipine, there was even a trend towards a decrease of the survival rate, probably related to the drug's hypotensive effect. Therefore, our data do not show a protective effect of nimodipine after cardiac arrest.
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PMID:Nimodipine has no beneficial effect on neurological outcome in a cardiopulmonary arrest model in the rat. 239 61

Nimodipine, a calcium channel blocker with high affinity for central dihydropyridine Ca2+ channels, produced a dose-dependent suppression of electrically induced seizures in the rabbit. Verapamil, a diphenylalkylamine which acts at peripheral Ca2+ channels, was ineffective. Phenytoin was less effective than nimodipine. These results suggest that calcium flux into neurons may be a biochemical precipitant for seizure genesis. Centrally acting calcium channel blockers may prove to be a new class of anticonvulsants.
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PMID:Inhibition of electrically induced seizures by a dihydropyridine calcium channel blocker. 243 42

The effects of the dihydropyridine calcium channel antagonists, nitrendipine and nimodipine, on convulsions produced by different mechanisms have been studied in rats. Nitrendipine and nimodipine significantly raised the thresholds to pentylenetetrazol for up to six hours after their injection. The calcium channel agonist, BAY K 8644, lowered the convulsion threshold to pentylenetetrazol and antagonised the effects of nitrendipine. In contrast, the severity of seizures produced by N-methyl-dl-aspartate (NMA) was increased by nitrendipine. BAY K 8644 also slightly increased the effects of NMA. Nimodipine and nitrendipine caused small, but significant, increases in the threshold pressures for the convulsions caused by raising the atmospheric pressure with helium gas. The compounds had no effect on strychnine convulsions. The conclusion is that the calcium channel antagonists are anticonvulsant against only certain types of convulsions, such as pentylenetetrazol and high pressure (and ethanol withdrawal, reported previously). Others may be increased, such as NMA seizures, or unaffected, such as strychnine-induced convulsions.
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PMID:Anticonvulsant profile of the dihydropyridine calcium channel antagonists, nitrendipine and nimodipine. 246 74

The dihydropyridine calcium channel antagonist, nimodipine has antiepileptic and anticonvulsive properties that are thought to be mediated through neuronal calcium channel blockade. The dihydropyridine binding site can be positively and negatively allosterically regulated by the benzothiazepines and the phenylalkylamines/piperazines, respectively. We investigated this binding interaction at the physiologic level by examining the effects of diltiazem (a benzothiazepine) and flunarizine (a piperazine) on the antiseizure activity of nimodipine. Seizures were induced with pentylenetetrazole in awake rats with chronically implanted EEG electrodes. Calcium channel antagonists were administered intracerebroventricularly 30 min after pentylenetetrazole at doses given at 15 min intervals. Diltiazem and flunarizine alone lacked antiseizure properties. The calculated ED50 values for nimodipine were: nimodipine alone = 135 micrograms; nimodipine + diltiazem (100 micrograms) = 67 micrograms. Nimodipine + flunarizine (10 micrograms) completely suppressed nimodipine's antiseizure activity. These findings may reflect the interaction observed among these agents at binding sites associated with the calcium channel and supports the idea that dihydropyridines mediate their antiseizure actions through neuronal calcium channel antagonism.
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PMID:Diltiazem enhances and flunarizine inhibits nimodipine's antiseizure effects. 272 77

[3H]Nimodipine and high-affinity [125I]omega-conotoxin GVIA (CgTX) binding were investigated in membranes from rat cerebral cortex, cerebellum, and hippocampus after electrically and chemically induced seizures. Animals were decapitated 30 min after a single electroconvulsive shock (ECS) or lidocaine-induced seizure and 24 h after the last of 10 once-daily ECS or six once-daily lidocaine-induced seizures. After a single ECS, [3H]nimodipine and [125I]CgTX binding sites decreased in cerebral cortex (by 10% and 17%, respectively). A downregulation of [3H]nimodipine binding sites in hippocampus occurred after single and repeated lidocaine-induced seizures (by 24% and 11%, respectively), whereas [125I]CgTX binding remained unaltered. An earlier report on changes in [3H]nitrendipine binding after chronic ECS in cortex and hippocampus was not confirmed.
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PMID:Differential effects of acute and repeated electrically and chemically induced seizures on [3H]Nimodipine and [125I]omega-conotoxin GVIA binding in rat brain. 275

Nimodipine, a dihydropyridine that interacts with a Ca++ channel-associated binding site, when delivered (30 to 150 micrograms/kg) intra-arterially (ia) to enflurane-anesthetized cats, produced a dose-dependent suppression of seizures evoked by pentylenetetrazol. A comparable suppression was produced by clonazepam (1 to 30 micrograms/kg, ia). Phenytoin was maximally effective only at nearly lethal doses (90 mg/kg, ia). Verapamil, a diphenylalkylamine that interacts with a separate Ca++ channel-associated site, at the maximum nonlethal dose (6 mg/kg, ia) resulted in a mild facilitation of seizure activity. The drug vehicle used in these studies (50% polyethylene glycol-400) had no effect when given alone. Regional cerebral blood flow (rCBF) as measured by the clearance of xenon-133 was markedly elevated immediately after the onset of seizure activity (89 +/- 3 to 168 +/- 4 ml/100 gm/min). Concurrent with their resolution of the seizure activity, both nimodipine and clonazepam reduced rCBF to near preseizure levels and preserved the rCBF response to hypercarbia which would otherwise have been abolished following prolonged seizure activity. Moreover, the effect of nimodipine on rCBF and seizures occurred without any prominent alterations in mean arterial blood pressure as compared to preseizure levels. These data support the proposition that a dihydropyridine Ca++ channel binding site may play a role in modulating paroxysmal neuronal activity, and suggest that this class of agents may reflect a novel group of antiepileptic drugs.
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PMID:Effect of dihydropyridines and diphenylalkylamines on pentylenetetrazol-induced seizures and cerebral blood flow in cats. 361 73

Seizure activity induced by kainic acid (KA) and subsequent neuronal death are thought to be associated with an increase in cytoplasmic free calcium ([Ca2+]i) and can be prevented by N-methyl-D-aspartate (NMDA) antagonists. In addition to influx through receptor operated Ca2+ channels the increase in [Ca2+]i may be the result of an increased influx through voltage-operated calcium channels and/or release from intracellular deposits. It was therefore investigated whether compounds other than NMDA antagonists with known actions on the intracellular Ca2+ homeostasis had any protective effect against KA-induced neuronal death. Voltage-operated calcium channels in the cell membrane were blocked with the L-type ion channel antagonist, Nimodipine (1.0 mg/kg), and release of Ca2+ from internal stores was prevented with Dantrolene (10 mg/kg). Animals from two control groups injected with kainate (8 mg/kg) exhibited a survival rate of 67 and 53%, respectively. Countings of neurons in dorsal hippocampus showed subtotal or total loss in the CA1 and CA3 subregions. There were no significant differences concerning seizure and survival rates in the groups injected with kainate and treated with Dantrolene or Nimodipine and the control groups. The group treated with Dantrolene showed no neuropathological changes in the hippocampal CA3 region and only slight changes in the Ca1 region, while the neuron loss in the Nimodipine group did not differ from that of its control group. The results emphasize the importance of Dantrolene-sensitive Ca2+ release from intracellular stores for the development of seizure-induced neuronal death.
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PMID:Kainic acid-induced seizures and brain damage in the rat: role of calcium homeostasis. 760 15

Among three calcium channel inhibitors, only nicardipine (10-40 mg/kg) significantly inhibited clonic seizures induced by pentylenetetrazol administered at its CD97 (convulsive dose 97%) of 81 mg/kg, subcutaneously. Nimodipine and flunarizine (both up to 80 mg/kg) did not suppress pentylenetetrazol-induced clonic seizures per se. Co-administration of nicardipine (5 mg/kg) resulted in a significant enhancement of the protective potency of either ethosuximide (50 mg/kg) or valproate (100 mg/kg) against clonic seizures in this test. Similar effects were noted in case of combined treatment of nimodipine (20-40 mg/kg) with these antiepileptics. On the contrary, flunarizine (up to 20 mg/kg) did not modify the anticonvulsive action of these antiepileptic drugs. Moreover, none of the studied calcium channel inhibitors influenced the protective activity of clonazepam (0.01 mg/kg). The antiepileptic drugs, administered alone in above doses, were ineffective against pentylenetetrazol-induced clonic convulsions. In case of ethosuximide and valproate, the motor performance in the chimney test was worsened by co-administration of nimodipine (40 mg/kg). We found no pharmacokinetic interactions (at least in relation to the plasma levels of ethosuximide and valproate) that could explain the observed results. Thus, we conclude that a combination of some calcium channel inhibitors and antiepileptic drugs may provide more efficient protection against experimental seizures which may bear a potential clinical significance.
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PMID:Influence of nicardipine, nimodipine and flunarizine on the anticonvulsant efficacy of antiepileptics against pentylenetetrazol in mice. 887 66

We assessed the effect of an opener of ATP-sensitive K+ channel, levcromakalim (BRL 38227, (-)6-cyano-3,4-dihydro-2, 2-dimethyl-trans-4-(2-oxo-1-pyrrolidyl)-2H-1-benzopyran-3-ol) on seizure threshold and severity of the hippocampus-generating partial seizures in rats. For comparison, an ATP-sensitive K+ channel blocker, glibenclamide; K+ channel blocker, tetraethylammonium; Ca2+ channel antagonist, nimodipine and Ca2+ channel agonist, (+/-)-BAY K 8644 (1,4-dihydro-2, 6-dimethyl-5-nitro-4-[2-(trifluoromethyl)-phenyl]-3-pyridinecarboxyli c acid methyl ester) were also examined. Seizure threshold was determined using pulse number threshold and seizure severity was ascertained using afterdischarge duration. Levcromakalim decreased afterdischarge duration at 10 nmol i.c.v. and decreased pulse number threshold at 100 nmol i.c.v. Tetraethylammonium at 10 nmol i.c.v. increased afterdischarge duration selectively and at 100 nmol i.c.v. induced spontaneous seizures. Glibenclamide (1-100 nmol i.c.v.) failed to change pulse number threshold and afterdischarge duration. Nimodipine (40 mg/kg i.p.) decreased afterdischarge duration and pulse number threshold. BAY K 8644 (1 mg/kg i.p.) decreased pulse number threshold and increased afterdischarge duration. In addition, voltage-clamp recording from neuroblastoma x glioma hybrid cells indicates that levcromakalim inhibited the fast component of Ca(2+)-dependent K+ currents, in addition to the inhibition of T- and L-types of voltage-dependent Ca2+ currents reported (Ito et al., FEBS Lett. 262, 313, 1990). These results suggest that levcromakalim shows anti- and proconvulsive actions in the hippocampus-generating partial seizures in rats and these effects might be, at least partly, caused by inhibiting Ca2+ channel and Ca(2+)-dependent K+ channel, respectively.
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PMID:Anti- and proconvulsive actions of levcromakalim, an opener of ATP-sensitive K+ channel, in the model of hippocampus-generating partial seizures in rats. 888 34


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