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)

Beta-blockers are increasingly often used with suicidal intent, but are also sometimes swallowed accidentally by small children. Beta-blockers available in the Federal Republic of Germany differ in their pharmacodynamics and pharmacokinetics. After analysing 49 cases of intoxication, no certain relationship was found between the different substances and specific symptoms. Cardiovascular signs such as sinus bradycardia, arrhythmia, hypotension (30 cases), as well as dizziness and drowziness (17) were the most frequent ones. Loss of consciousness and hallucination (13), as well as seizures (3), also occurred frequently. Hypoglycaemia or symptoms due to it (12) were noted especially in young children. In addition to primary removal of the drug, repeated administration of charcoal and sodium sulphate are recommended with most of the drugs for interrupting the enterohepatic circulation. Administration of atropine for bradycardia and hypotension was usually not effective. Dopamine is recommended; glucagon for definite signs of shock. Haemodialysis is indicated only in exceptional instances and is effective for only a few of the drugs. Forced diuresis should not be practised.
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PMID:[Intoxication with beta-receptor blockers (author's transl)]. 617 90

Norepinephrine, dopamine, and 5-hydroxytryptamine concentrations were determined in the central nervous systems of genetically epilepsy-prone rats (GEPR) and in control rats. Norepinephrine concentrations were abnormal in all major areas of the central nervous system of the GEPR, with decrements existing in the telencephalon, hypothalamus-thalamus, midbrain, pons-medulla and spinal cord. An increment in the concentration of this neurotransmitter existed in the cerebellum. Dopamine concentrations were normal in all areas of the GEPR brain. Abnormalities in 5-hydroxytryptamine concentrations were also present in the GEPR. They were exclusively decrements and occurred in the telencephalon, hypothalamus-thalamus, midbrain, and pons medulla. Concentrations of this neurotransmitter were normal in the cerebellum and spinal cord. Coupled with our earlier pharmacologic data, these observations support our concept that noradrenergic and/or 5-hydroxytryptaminergic decrements are etiologically important in seizure susceptibility in the GEPR. The lack of abnormalities in brain dopamine concentrations strengthens our hypothesis that dopaminergic transmission does not regulate seizure susceptibility in this model.
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PMID:Abnormalities in monoamine levels in the central nervous system of the genetically epilepsy-prone rat. 628 98

Lidocaine and procaine seizure thresholds were studied. The i.p. median convulsant dose (CD50) of lidocaine and procaine with saline pre-treatment was 95 and 240 mg/kg, respectively. Dopamine depletion by pre-treatment with d1-alpha-methyl-p-tyrosine plus dihydroxyphenylserine resulted in a significant drop of CD50 to 69 and 175 mg/kg for lidocaine and procaine, respectively. Serotonin depletion by pre-treatment with p-chlorophenylalanine resulted in a significant drop of CD50 to 68 mg/kg for lidocaine, but no significant change for procaine.
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PMID:Alteration of lidocaine- or procaine-induced convulsions by manipulation of brain amines. 645 Jul 81

Dopamine agonists and antagonists with different affinities for D1 and D2 receptors in the brain were assessed for their ability to affect clonic seizures in mice induced by chemoconvulsants. The dopamine D2 antagonists remoxipride (5-20 mg/kg) and raclopride (5-20 mg/kg), haloperidol (2.5 and 5 mg/kg) and the D1 antagonist SCH 23390 (0.3, 1.5 mg/kg) did not markedly modify seizures induced by pentylenetetrazole, picrotoxin or bicuculline. The dopamine D2 agonist quinpirole only weakly blocked the action of pentylenetetrazole while the D1 agonist SKF 38393 (1-10 mg/kg subcutaneously) caused a dose-dependent blockade of pentylenetetrazole-induced seizures. The D1/D2 agonist apomorphine given at "postsynaptic" doses (1 and 2 mg/kg) blocked pentylenetetrazole-induced seizures. The protection afforded by apomorphine against pentylenetetrazole seizures appeared to be associated with its activation of both D1 and D2 receptors since both raclopride and SCH 23390 blocked the action of apomorphine. Reserpine and the two partial dopamine autoreceptor agonists, (-)3-PPP and HW-165, at high (non-autoreceptor selective) doses induced seizures in animals treated with the subconvulsive dose of pentylenetetrazole. The overall results suggest that dopamine receptor blockade has a minor or limited effect on seizures caused by GABA inhibition. The anticonvulsant effect of dopamine agonists such as apomorphine appears to be mediated by postsynaptic dopamine D1 and D2 receptors. Stimulation of dopamine D1 receptors can reduce seizure activity caused by GABA receptor blockade possibly by facilitation of GABA transmission in the striatum and substantia nigra.
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PMID:Effects of dopamine D1 and D2 receptor agonists and antagonists on seizures induced by chemoconvulsants in mice. 810 21

Sodium valproate is a well established anticonvulsant drug but its exact mode of action is not yet clear. With a view to find out whether the mechanism of action of sodium valproate is mediated by alteration in monoamine levels, apart from GABA, in brain, sodium valproate (200 mg/kg body wt) was administered i.p. to male adult Wistar rats for 45 days. The levels of norepinephrine (NE), dopamine (DA) and serotonin (5-HT) were assayed in different brain regions using high performance liquid chromatographic (HPLC) method. It was noted that at the end of the experimental period there was no change in body or brain weight nor were there any neurological deficits as a result of sodium valproate administration. However, after administration of sodium valproate there was a significant increase in norepinephrine levels in hippocampus (P < 0.01) and brainstem (P < 0.01) while a significant decrease was noted in hypothalamus (P < 0.001). Dopamine levels were significantly increased in motor cortex (P < 0.01), hippocampus (P < 0.01) and hypothalamus (P < 0.001). Serotonin levels were significantly increased in striatum-accumbens and brain stem (P < 0.001). However a marginal increase was also observed in motor cortex and hippocampus. 5-HT levels were significantly decreased in hypothalamus (P < 0.001) and cerebellum (P < 0.01). The present findings suggest the possibility that the anticonvulsant effect of sodium valproate could be due to alterations in monoamine levels apart from its action on GABA, which would indicate also the efficacy of this drug in different types of seizures.
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PMID:Sodium valproate induced alterations in monoamine levels in different regions of the rat brain. 813 Jul 37

Tissue samples from the caudate nucleus were obtained from eight children (eight to 172 months of age) who underwent hemispherectomies for the relief of intractable seizures. Neurophysiological, pharmacological and morphological properties of caudate neurons were characterized by intracellular recordings in an in vitro slice preparation. These properties were compared with those of tissue obtained from animal studies. Electrophysiological properties of human caudate neurons that were similar to those of cat caudate and rat neostriatal cells included resting membrane potential, input resistance, action potential rise time, fall time, duration and action potential afterhyperpolarization amplitude, as well as the general characteristics of locally evoked synaptic responses. Properties that were different included action potential amplitudes and time-constants. Human caudate neurons also displayed responses similar to those of cat caudate or rat neostriatal cells to manipulation of excitatory amino acid receptor systems and to dopamine application. Kynurenic acid, a broad-spectrum excitatory amino acid receptor antagonist, decreased the amplitude of evoked synaptic responses, indicating that they were partially mediated by excitatory amino acids. In Mg2+ free Ringer's solution, the amplitudes and durations of postsynaptic responses were increased and bursts of action potentials were induced. These effects were mediated by activation of N-methyl-D-aspartate receptors since they were blocked by 2-amino-5-phosphonovalerate, a specific N-methyl-D-aspartate-receptor antagonist. Iontophoretic application of N-methyl-D-aspartate also induced membrane oscillations and bursts in almost all caudate neurons. Dopamine decreased the amplitude of postsynaptic responses, an effect antagonized by domperidone, a selective D2 dopamine receptor antagonist. Developmentally, the greatest change was an increase in action potential amplitude, although input resistance decreased and action potential afterhyperpolarization amplitude increased. Postsynaptic responses were similar across age. All but one of the caudate neurons identified by intracellular injection of biocytin or Lucifer Yellow were medium-sized spiny cells. These experiments show that human caudate neurons display a number of electrophysiological properties similar to rat neostriatal or cat caudate neurons recorded in brain slices. Furthermore, few electrophysiological parameters changed significantly over the age period examined suggesting that the human caudate at eight months displays many of the neuronal functions of the more mature caudate nucleus.
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PMID:Neurophysiological, pharmacological and morphological properties of human caudate neurons recorded in vitro. 819 Feb 75

Dopamine (DA) and norepinephrine (NE) brain levels and turnover rate were examined in the spontaneously epileptic rat (SER: zi/zi, tm/tm), a double mutant rat obtained by mating tremor heterozygotes (tm/+) with zitter homozygotes associated with epileptic seizures composed of spontaneously occurring tonic convulsion and absence-like seizure. DA and NE levels were also determined in age-matched male zitter, tremor and Kyo: Wistar rats. DA levels in caudate nucleus were significantly lower in adult age (10-12 weeks) SER, which showed epileptic seizures, and zitter rats than in adult Kyo: Wistar and tremor rats. DA levels in other areas such as thalamus-hypothalamus, midbrain, and pons medulla were not different among SER, zitter, tremor, and Kyo: Wistar rats at age 10-12 weeks. Except in cerebral cortex and hippocampus, there were no differences in brain DA levels between young seizure-free SER (age 5 weeks) and young Kyo: Wistar rats. Furthermore, the turnover rate of DA was significantly lower in caudate nucleus of adult SER than of Kyo: Wistar rat, whereas in pons-medulla there was no difference between the two strains. In contrast, NE levels in the thalamus-hypothalamus, midbrain, cerebellum and pons-medulla were higher in SER and zitter rats at age 10-12 weeks than in age-matched tremor and Kyo: Wistar rats. Higher NE levels were also observed in midbrain, cerebellum, and pons-medulla of young SER as compared with young Kyo: Wistar rats. Turnover rates of NE were significantly lower in pons-medulla and cerebellum of the adult SER than in those of Kyo: Wistar rat.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Decreased dopamine and increased norepinephrine levels in the spontaneously epileptic rat, a double mutant rat. 850 78

During the last two decades, evidence has accumulated to demonstrate the existence, in the central nervous system, of an endogenous mechanism that exerts an inhibitory control over different forms of epileptic seizures. The substantia nigra and the superior colliculus have been described as key structures in this control circuit; inhibition of GABAergic neurons of the substantia nigra pars reticulata results in suppression of seizures in various animal models of epilepsy. The role in this control mechanism of the direct GABAergic projection from the striatum to the substantia nigra and of the indirect pathway, from the striatum through the globus pallidus and the subthalamic nucleus, was examined in a genetic model of absence seizures in the rat. In this model, pharmacological manipulations of both the direct and indirect pathways resulted in modulation of absence seizures. Activation of the direct pathway or inhibition of the indirect pathway suppressed absence seizures through disinhibition of neurons in the deep and intermediate layers of the superior colliculus. Dopamine D1 and D2 receptors in the nucleus accumbens, appear to be critical in these suppressive effects. Along with data from the literature, our results suggest that basal ganglia circuits play a major role in the modulation of absence seizures and provide a framework to understand the role of these circuits in the modulation of generalized seizures.
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PMID:The role of basal ganglia in the control of generalized absence seizures. 976 22

Electrical kindling refers to the seizure-generating properties of brain stimulation. In addition to producing epilepsy, the reorganization of forebrain neurocircuitry associated with kindling contributes to psychiatric disturbances involving fear and anxiety. The amygdala is a limbic structure that kindles readily and regulates the complex neurocircuitry underlying emotional responding. Dopamine-containing ventral tegmental area (VTA) neurons, known to be activated by threatening environmental stimuli, are an important component of the amygdala-based fear network. Using amygdala kindling as an indicator of sensitization development, we report here that repeated low-current, high-frequency stimulation of the VTA provoked afterdischarge in the central amygdala and enhanced kindling rate. By establishing a fundamental link between VTA activation and neural excitability in the central amygdala, the present results are consistent with the possibility of a common process underlying epileptogenisis and the fear motivational consequences of amygdala and VTA kindling. Considering the established role of the VTA and the amygdala in emotional responding, such a sensitization mechanism might mediate exaggerated fearfulness.
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PMID:Enhanced amygdala kindling after electrical stimulation of the ventral tegmental area: implications for fear and anxiety. 1055 31

It is known that epilepsy patients diagnosed with neocortical temporal lobe epilepsy (NTLE), differ from those diagnosed with mesial temporal lobe epilepsy (MTLE), e.g., in hippocampal (HPC) pathology. In the present studies, we tested the hypothesis that NTLE and MTLE subtypes of human epilepsy might differ in regards to their HPC monoamine neurochemistry. Monoamine neurotransmitters were studied in separate signals and within s with semiderivative microvoltammetry, used in combination with stearate indicator, Ag-AgCl reference and stainless steel auxiliary microelectrodes. Anterior HPC specimens from the patients' epileptogenic zone, defined by electrocorticography, were resected neurosurgically from 13 consecutive patients with intractable temporal lobe epilepsy. Four patients were diagnosed with NTLE and nine with MTLE. The criteria for the diagnosis of NTLE versus MTLE was absence versus presence of HPC sclerosis, respectively, based on MRI examination of resected tissue. In addition, NTLE patients demonstrated seizure onset in anterolateral temporal neocortex on electroencephalography (EEG). HPC subparcellations studied were: (a) Granular Cells of the Dentate Gyrus (DG), (b) Polymorphic Layer of DG and (c) Pyramidal Layer: subfields, CA1 and CA2. Dopamine (DA), serotonin (5-HT), norepinephrine (NE) and ascorbic acid (AA) (co-factor in DA to NE synthesis), exhibited separate and characteristic half-wave potentials in millivolts. Each half-wave potential, i.e., the potential at which maximum current was generated, was experimentally established in vitro. Concentrations of neurotransmitters found in HPC subparcellations were interpolated from calibration curves derived in vitro from electrochemical detection of monoamines and AA in saline phosphate buffer. Significant differences between subtypes in concentration of monoamines were analyzed by the Mann Whitney rank sum test and those differences in probability distribution of monoamines were analyzed by the Fisher Exact test; in each case, P<0.01 was the criteria selected for determining statistical significance. DA concentrations were higher in NTLE compared with MTLE in each HPC subparcellation [P=0.037, 0.024 and 0.007, respectively (P<0.01)] and DA occurred more frequently in NTLE in the Pyramidal Layer [P=0.077 (P<0.01)]. AA was present in one NTLE patient. NE concentrations were higher in MTLE vs. NTLE in each subparcellation [P=0.012, 0.067 and 0.07, respectively (P<0.01)] and NE occurred more frequently in MTLE in Granular Cells of DG and Pyramidal Layer [P=0.052 and 0.014, respectively (P<0.01)]. In MTLE, NE concentrations in the CA1 subfield of the Pyramidal Layer were decreased vs. the CA2 subfield [P=0.063 (P<0.01)]. Serotonin was found in every HPC subparcellation of each subtype but 5-HT concentrations were higher in NTLE vs. MTLE in the Granular Cells of DG and the Pyramidal Layer (CA1 subfield) [P=0.076 and 0.095, respectively (P<0.01)]. Thus, this preliminary study showed that marked differences in HPC monoamine neurochemistry occurred in NTLE patients as compared with MTLE patients.
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PMID:Monoamine neurotransmitters in resected hippocampal subparcellations from neocortical and mesial temporal lobe epilepsy patients: in situ microvoltammetric studies. 1099 35

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