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)

To determine if electrophysiological properties of hippocampal pathways are altered after medial septal area (MSA) destruction, extracellular recordings were made from hippocampal slices of rats 30 days following lesion and compared with those from unoperated controls. The preparation of slices, data accumulation and data analyses were done under the same conditions. The electrophysiological parameters of interest were the population spike (PS) and the field EPSP, produced in the CA1 pyramidal layer by stimulation of the Schaffer collaterals. The principal finding of this study was that neuronal excitability in slices from MSA-lesioned rats was altered. The most striking abnormalities were an epileptiform activity, which consisted of multiple PSs, and multiple seizure-like after discharges with a delayed onset to low stimulation intensities. In the CA1 region of the slices collected from lesioned rats the input-output curve of field EPSP versus PS showed a leftward shift as compared with their counterparts in normal slices. These changes may be related to relative reduction of inhibitory processes in interneuronal circuits of CA1 region.
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PMID:[Changes in the neuronal excitability of rat hippocampal slices isolated after destruction of the medial septal area]. 164 80

This study examined the interictal consequences of partial kindling of the ventral perforant path on attack and defensive behavior in the domestic cat. Partial kindling produced a lasting increase in defense response of cats to both rats and conspecific threat howls. In addition, there was a lasting suppression of approach-attack behaviors directed toward rats. The suppression of some components of approach-attack were shown to be independent of the increases in defensive response. The effects of partial kindling of the ventral perforant path on spread of seizure activity into the amygdala, and on the output of the amygdala to both the ventromedial hypothalamus (VMH) and bed nucleus of the stria terminalis (BNST) were also examined. In addition, the effects of repeated hippocampal seizures on recurrent inhibition in the trisynaptic circuit (areas CA1 and CA3) were investigated. Growth of seizure activity in the amygdala and VMH as partial kindling progressed was essential for behavioral change. In addition, interictal long-term potentiation of potentials evoked in the VMH and in the BNST by pulsed stimulation of the amygdala followed partial kindling or afterdischarge threshold determination in the ventral perforant path. A lasting interictal increase in inhibition in area CA3 and a lasting interictal failure of inhibition in area CA1 of the ventral hippocampus also followed partial kindling. These changes in limbic physiology were related to the behavioral changes produced by partial kindling. The analysis revealed the importance of the amygdalo-VMH pathway in increased defensive response to rats. The amygdalo-BNST pathway is not important in mediating defensive response to prey, but it is implicated in suppression of some types of predatory aggression. Finally, changes in neural inhibition in the ventral hippocampus in areas CA1 and CA3 are associated with changes in both defensiveness and predatory aggression.
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PMID:Partial kindling of the ventral hippocampus: identification of changes in limbic physiology which accompany changes in feline aggression and defense. 164 39

The effects of cis-3,4 dichloro-N-2-(1-pyrrolidinyl)cyclo-hexyl-benzamide (U-54494A), an anticonvulsant related to kappa opioids, were studied in vitro on the extracellular electrical activity of the CA1 region of slices of hippocampus in the rat. The effects of U-54494A were compared to those of the kappa opioid agonist trans-3,4 dichloro-N-2-(1-pyrrolidinyl)cyclo-hexyl benzeneacetamide methane sulphonate (U-50488H). Both U-54494A and U-50488H, in concentrations of 50 and 100 microM, respectively, reduced the magnitude of the orthodromically evoked CA1 population spikes after electrical stimulation of the stratum radiatum (100-200 microA, 70 microseconds, 0.1 Hz). Naltrexone (25 microM), or the selective kappa opiate receptor antagonist, 1-cyclopenthyl-5-(1,2,3,4,5,6-hexahydroxy-3,6,11-trimethyl-2 -6-methano-3- benzazocin)-3-pentatone methane sulphonate (WIN 44441-3) (25 microM), prevented the depressant activity of U-54494A (200 microM) on the CA1 population spikes. High calcium (+3mM) solutions prevented the depressant activity of increasing concentrations of both U-54494A and U-50488H on the amplitude of CA1 population spikes. Up to 200 microM, both drugs were ineffective in depressing the epileptiform bursting in CA1, due to 1 mM penicillin or to perfusion of the slice in absence of magnesium ions. The results demonstrate: (1) the inability of U-54494A to show antagonistic activity in two in vitro models of interictal epilepsy; (2) a depressant effect of U-54494A on basal synaptic transmission in the CA1 region of the hippocampus, which may be related to an influence on transneuronal calcium currents and which may be involved in the reported antagonism of ictal epileptic seizures by drugs.
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PMID:In vitro depressant effects of U-54494A, an anticonvulsant related to kappa opioids, in the hippocampus. 165 3

We investigated whether modifications in noradrenergic neurotransmission occurred during the development of hippocampal kindling in rats. We measured the release of [3H]norepinephrine (NE) induced by field-electrical stimulation, NE-stimulation of inositol phosphates [( 3H]IP) accumulation in the presence of LiCl and isoproterenol-induced accumulation of cAMP in hippocampal slices taken from rats electrically kindled at stages 2 and 5 in the dorsal hippocampus. One week after the last of at least 3 consecutive stage 5 seizures or 48 h after the last stage 2 stimulation, 2 min electrical stimulation of stratum pyramidale CA1-CA3 or dentate gyrus (DG) slices from kindled and contralateral hippocampi induced frequency-dependent NE release (respectively 2, 4 and 8 times spontaneous release measured at 2, 5 and 10 Hz) which did not significantly differ from that observed in shams (implanted with electrodes but not stimulated). Basal release of NE from kindled and sham-treated rats did not differ either. Isoproterenol induced a dose-dependent increase above basal cAMP concentration ranging from 40% at 0.01 microM to 180% at 10 microM (P less than 0.01, Dunnett's test) which did not differ between stages 2 and 5 and sham-hippocampi. NE (1-1000 microM) induced a dose-dependent, prazosin-sensitive increase in [3H]IP accumulation in the hippocampal slices. A significantly higher increase was found at stages 2 (P less than 0.05, Tukey's test) and 5 (P less than 0.05 and P less than 0.01, Tukey's test) compared to shams at all doses studied.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Changes in pre- and postsynaptic components of noradrenergic transmission in hippocampal kindling in rats. 166 Jul 53

Glutamate (GLU)-receptor subtypes, (quisqualate (QA)-, kainate (KA)-, N- methyl-D-aspartate (NMDA)-receptors) and the phencyclidine sites localized in the ion-channel associated to the NMDA-receptors, were studied by autoradiography in the hippocampus of rats subjected to a convulsive dose of the acetylcholinesterase inhibitor soman (0-, 1,2,2-trimethylpropyl methylphosphonofluoridate). In intoxicated rats, a significant increase in L-[3H]-GLU binding occurred within the first 40 min of seizures in the hippocampal CA3 and CA1 areas. Whereas binding to KA- and NMDA-receptors remained unchanged, L-[3H]-GLU binding to CA3 QA-receptors increased by 31 and 50% respectively after 10 and 40 min of seizures. In CA1, the change in QA-receptors was delayed (+30% after 40 min) and accompanied by an increase in the phencyclidine site binding capacity, reflecting the probable concomitant opening of NMDA ion-channels. These findings confirmed the previously suspected involvement of GLU in the earliest stages of soman-induced seizures, and suggested that, in hippocampus, the primary activation of QA-receptors in the CA3 region could lead to the secondary recruitment of combined non-NMDA (QA) and NMDA mechanisms in CA1.
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PMID:Involvement of the different rat hippocampal glutamatergic receptors in development of seizures induced by soman: an autoradiographic study. 166 52

1. The effects of BRL 34915 (cromakalim), a potassium channel opener, have been tested on the epileptiform activity elicited by high dose/concentrations of some calcium antagonists in in vivo (diltiazem) and in vitro (diltiazem and verapamil) experiments in rats. 2. Diltiazem (150-300 mg kg-1, i.p.) induced behavioural and electroencephalographic (EEG) seizures that were completely prevented by cromakalim (10 nmol/10 microliters, i.c.v.). Whereas, pentobarbitone (5-10 mg kg-1, i.p.) only prevented the behavioural component of the seizures. 3. In hippocampal slices, verapamil (1.5-2.0 mM) produced, within 30-60 min of perfusion, a CA1 epileptiform bursting in 80% of the experiments. This epileptiform activity was prevented by the cromakalim concentration (50 microM) that did not affect the control CA1 synaptic transmission per se. Pentobarbitone also prevented verapamil-induced epileptiform bursting only at the concentration (100 microM) that also reduced control CA1 synaptic transmission. 4. Diltiazem (1.5 mM) produced a biphasic excitatory-depressant effect within 60 min of perfusion. A CA1 epileptiform bursting appeared in 100% of the experiments within 30 min of perfusion. These excitatory effects were followed by a depression phase, characterized by a reduction of the magnitude of CA1 excitatory postsynaptic potentials (e.p.s.ps) and population spike. 5. The diltiazem-induced epileptiform bursting was prevented by cromakalim at a concentration (50 microM) that did not affect the control CA1 synaptic transmission per se. Pentobarbitone also prevented the diltiazem-induced epileptiform bursting only at a concentration (100 microM) that also reduced the control CA1 synaptic transmission. Both cromakalim (50 microM) and pentobarbitone (100 microM) failed to affect the depressant effects of diltiazem on CA1 hippocampal area. On the contrary, high (3.3mM) calcium solutions prevented both the excitatory and the depressant effects of 1.5 mm diltiazem within 60 min.6. These data indicate an involvement of potassium currents in the epileptiform activity elicited by high doses of diltiazem and verapamil.
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PMID:Cromakalim (BRL 34915) counteracts the epileptiform activity elicited by diltiazem and verapamil in rats. 166 91

Following kainate (KA)-induced lesions of subfield CA3--a lesion relevant to human temporal lobe epilepsy--remaining pyramidal cells in CA1 display synchronous hyperexcitability associated with a loss of synaptic inhibition. Despite this loss, inhibitory interneurons in CA1 remain viable, and the density and function of GABAergic receptors on the CA1 pyramidal cells are maintained at approximately normal levels. To further evaluate inhibition in this system, the authors examined interactions between pyramidal cells and inhibitory interneurons in paired intracellular recordings. Recordings were carried out in rat hippocampal slices 2-4 weeks following bilateral intraventricular KA injections. The frequency of synaptic interactions between CA1 basket cells and pyramidal cells was lower in hyperexcitable slices than in controls; both synapses in the recurrent inhibitory circuit appeared to be involved. No recurrent excitatory interactions were seen between pyramidal cell pairs in lesioned or normal slices. The weakened interconnections between pyramidal cells and interneurons are consistent with the decreased inhibition previously found in this model. Unexpectedly, strong stimulation, which may directly activate local inhibitory circuitry, was effective in reducing hyperexcitability in KA-lesioned slices. These data suggest that development of recurrent excitatory connections among CA1 hippocampal pyramidal cells contribute little to tissue excitability, and support the hypothesis that a functional uncoupling between inhibitory interneurons and CA1 pyramidal cells is responsible for the seizure-like activity typical of KA-lesioned hippocampus. The data are also consistent with the hypothesis that in the KA model, the structural circuitry needed for inhibition in CA1 is maintained, and can be functionally activated by appropriate stimuli.
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PMID:Local circuit synaptic interactions between CA1 pyramidal cells and interneurons in the kainate-lesioned hyperexcitable hippocampus. 166 43

Lamotrigine (LTG), a new anticonvulsant, chemically unrelated to current antiepileptic drugs (AEDs), resembles phenytoin (PHT) and carbamazepine (CBZ) in ability to block hindlimb extension in both the maximal electroshock test and leptazol-induced seizures. Results indicate that LTG may be of value in both partial and generalized seizures. In in vitro studies, LTG has been shown to inhibit veratrine-evoked release of glutamate when a threshold depolarizing concentration (4 micrograms/ml) is used, and also inhibits aspartate release when a larger stimulus is given (10 micrograms/ml). However, LTG does not block potassium-evoked transmitter release. LTG is a less potent inhibitor of the release of gamma-aminobutyric acid (GABA), acetylcholine, noradrenaline, and dopamine. LTG blocks the neurotoxicity of kainic acid in vivo, supporting the in vitro findings, and suggests that the anticonvulsant effect of LTG may be due to inhibition of glutamate release. In a test of working memory and phencyclidine (PCP) discrimination studies, LTG had no effect, indicating no sharing of the same PCP-like side effects associated with NMDA receptor blockade. In the gerbil model of global ischemia, high doses of LTG provided protection against damage to the CA1 region of the hippocampus. Analogues of LTG of higher potency to block the release of glutamate may be necessary to ensure protection against ischemic brain damage.
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PMID:Neurochemical and behavioral aspects of lamotrigine. 168 39

Intrahippocampal injection of 1 nmol ouabain, a sodium/potassium (Na+,K(+)-)ATPase inhibitor, produced a necrotic lesion within 4 days, characterised by a massive invasion by foaming macrophages. A lower dose of ouabain (0.1 nmol) produced a more discrete lesion of all groups of neuronal perikarya in the hippocampus, with only a minimal degree of glial infiltration. The neuronal perikaryal death produced in the subicular, CA1 and CA2 regions was only partially decreased by intraperitoneal injections of the anticonvulsants diazepam and MK-801; these drugs were without effect in the CA3 or hilar interneuronal regions. At neither dose of ouabain was there any indication of neuronal loss in brain regions outside the hippocampus, typically produced by prolonged seizure activity. It is suggested that ouabain has a two-fold action, a release of toxic acidic amino acids and a prolonged depolarization of neurons leading to osmolysis or calcium necrosis.
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PMID:The neurotoxicity of ouabain, a sodium-potassium ATPase inhibitor, in the rat hippocampus. 170 75

The influence of kainic acid (KA)-induced limbic seizure activity on the expression of mRNA for nerve growth factor (NGF) in adult rat brain was studied using in situ hybridization and S1 nuclease protection techniques with RNA probes complementary to murine and rat NGF mRNA. Within hippocampus, intracerebroventricular injection of 0.5 microgram KA caused a dramatic bilateral increase in hybridization of the 35S-labeled cRNA within stratum granulosum. This increase was first evident 1 h post-KA, appeared maximal at approximately 20-fold control levels at 2-3 h post-injection, and declined to control levels by 48 h post-injection. During the period of maximal hybridization, all but the deepest cells within stratum granulosum appeared to be autoradiographically labeled. Hybridization of the NGF cRNA probe was also increased within superficial layers of piriform and entorhinal cortex and, to much lesser extent, within scattered neurons of layers II and III of neocortex in KA-treated rats. In olfactory cortical areas, hybridization was maximally elevated 15.5-24.5 h after KA injection. In contrast to these effects, KA treatment did not consistently influence the density of hybridization, or number of neurons labeled, within the dentate gyrus hilus or the hippocampus proper (CA1-CA3). In agreement with the in situ hybridization results, S1 nuclease protection assay detected KA-induced increases in hybridization within pooled dentate gyrus/CA1 samples, but not hippocampal CA3 samples. These data support the conclusion that seizure activity stimulates a transient increase in NGF expression by select populations of forebrain neurons and indicates that experimental seizure paradigms might be further exploited for analyses of the mechanisms of NGF regulation and processing in the adult brain.
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PMID:Kainic acid-induced seizures stimulate increased expression of nerve growth factor mRNA in rat hippocampus. 170 74

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