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)

Alterations in a variety of neurotransmitter systems have been identified in experimental models of epilepsy and in brain tissue from patients with intractable temporal lobe seizures. The availability of new high-affinity radioligands permits the study of some neuroreceptors in vivo with positron emission tomography (PET). We previously characterized the in vivo binding of 11C-carfentanil, a potent and selective mu opiate receptor agonist, and described increases in 11C-carfentanil binding in the temporal neocortex of patients with unilateral temporal lobe epilepsy. These studies have been extended to 11C-diprenorphine, which labels mu, kappa, and delta opiate receptor subtypes. Paired measurements of opiate receptor binding were performed with PET using 11C-carfentanil and 11C-diprenorphine in patients with unilateral temporal lobe seizures. Carfentanil binding, reflecting changes in mu opiate receptors, was increased in the temporal neocortex and decreased in the amygdala on the side of the epileptic focus. Diprenorphine binding, reflecting mu as well as non-mu opiate subtypes, was not significantly different among regions in the focus and nonfocus temporal lobes. Regional glucose metabolism, measured using 18F-2-fluoro-2-deoxyglucose, was decreased in the mesial and lateral aspects of the temporal lobe ipsilateral to the epileptogenic focus. The variation in pattern of carfentanil and diprenorphine binding supports a differential regulation of opiate subtypes in unilateral temporal lobe epilepsy.
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PMID:Quantification of mu and non-mu opiate receptors in temporal lobe epilepsy using positron emission tomography. 165 46

The effects of novel opioid antagonists on the behavioural syndrome induced by electroconvulsive shock (ECS) in rats have been examined and compared with those of the established agent naloxone. A single ECS produced catalepsy and significantly increased tail immersion response times during the 15 min following the seizure. These responses were inhibited by a low dose of naloxone (1 mg kg-1, i.p.) and also by RX8008M (16-methylcyprenorphine; 1 mg kg-1, i.p.) which blocks mu- and delta- but not kappa-opioid receptor function. In comparison, the antinociception and catalepsy induced by ECS was not attenuated by the selective delta-receptor antagonist naltrindole (1 mg kg-1, i.p.). These results suggest that ECS-induced antinociception and catalepsy may be mediated by endogenous opioids acting at mu-opioid receptors and are consistent with biochemical studies showing the release of beta-endorphin in both animals and man following this procedure.
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PMID:Investigation of the different types of opioid receptor involved in electroconvulsive shock-induced antinociception and catalepsy in the rat. 168 23

As surgical treatments for adult and pediatric forms of epilepsy have become more refined, methods for noninvasive localization of epileptogenic foci have become increasingly important. Detection of focal brain metabolic or flow abnormalities is now well recognized as an essential step in the presurgical evaluation of many patients with epilepsy. Positron emission tomography (PET) scanning is most beneficial when used in the context of the total clinical evaluation of patients, including scalp EEG, invasive EEG, neuropsychologic testing, etc. Metabolic PET studies also give insight into pathophysiologic mechanisms of epilepsy. The dynamic nature of the interictal hypometabolism observed with 18[F]FDG in some patients suggests that excitatory or inhibitory neurotransmitters and their receptors may be involved. An exciting current application of PET scanning is the use of tracers for neurotransmitter receptors in the study of epilepsy patients. Mu and non-mu opiate receptors have been extensively studied and are beginning to give new insights into this disorder. Increased labeling of mu receptors in temporal neocortex using 11C-carfentanil has been demonstrated and, in some patients, supplements the clinical localization information from 18[F]FDG studies. Increased mu opiate receptor number or affinity is thought to play a role in anticonvulsant mechanisms. Specificity of increased mu receptors is supported by the absence of significant changes in non-mu opiate receptors. Other brain receptors are also of interest for future studies, particularly those for excitatory neurotransmitters. Combined studies of flow, metabolism, and neuroreceptors may elucidate the factors responsible for initiation and termination of seizures, thus improving patient treatment.
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PMID:Epilepsy. 184 58

The selective kappa-opioid receptor agonist CI-977, stereoselectively antagonised clonic seizures induced by slow i.v. infusion of N-methyl-DL-aspartate in the mouse. It was found to be more efficacious and 10-fold more potent than the competitive N-methyl-D-aspartic acid receptor antagonist CPP (3-(+/-)-(2-carboxypiperazin-4-yl)propyl-1-phosphonic acid). The anticonvulsant action of CI-977 was antagonised by norbinaltorphimine indicating a specific interaction with the kappa-receptor. The effect of CI-977 but not that of CPP was also antagonised by the glycine/NMDA receptor agonist D-serine. These results provide evidence for a possible interaction between the kappa-receptor and the glycine/NMDA receptor.
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PMID:The anticonvulsant action of CI-977, a selective kappa-opioid receptor agonist: a possible involvement of the glycine/NMDA receptor complex. 196 13

The biochemical and pharmacological properties of an endogenous anticonvulsant substance(s) found in rat cerebrospinal fluid (CSF) following seizures are described. CSF taken from donor rats following a single maximal electroshock (MES) seizure caused significant elevations in seizure thresholds in naive recipient rats when intracerebroventricularly injected 15 min prior to exposure to the volatile convulsant flurothyl. Anticonvulsant activity was antagonized by pre-injection in recipients of high doses of naloxone or the selective delta-opioid receptor antagonist ICI 174,864. The anticonvulsant activity was also lost when the CSF was exposed to heat (90 degrees C) or immobilized trypsin. Although unaffected by the peptidase inhibitors thiorphan and bestatin, the anticonvulsant activity was significantly potentiated by a combination of aprotinin and bacitracin. Ultrafiltration of CSF revealed that the anticonvulsant activity passed through membranes with a 10,000 molecular weight cut-off, but was retained by membranes with a 5000 molecular weight cut-off. CSF removed from rats following MES had significantly increased concentrations of beta-endorphin-like, but not dynorphin A, Leu- or Met-enkephalin-like immunoreactivities relative to CSF from sham-treated rats. However, significant increases in Met-enkephalin-like immunoreactivity were measured following exposure of the CSF to the proteolytic enzymes trypsin and carboxypeptidase B, suggesting the seizure-induced presence of a higher molecular weight form of Met-enkephalin not recognized immunologically prior to enzyme exposure. These data reconfirm the anticonvulsant actions of postseizure CSF, and indicate that these effects require mediation through delta-opioid receptors in the recipient rat. These data additionally argue against these effects being mediated by Met-enkephalin, Leu-enkephalin or dynorphin A in the CSF, and suggest instead that anticonvulsant effects are attributable to a heat- and trypsin-sensitive opioid peptide(s) with a molecular weight approximately in the range of 5000-10,000 Da.
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PMID:Characterization of opioid peptide-like anticonvulsant activity in rat cerebrospinal fluid. 245 10

We have shown that pre- and post-pubertal female rats are sensitive to seizures. For example, daily convulsions commencing at 24 days of age delay puberty. Here we examine the effect of seizures at various ages. In addition, because opioid peptides are implicated in regulating the onset of puberty and are activated by convulsions, we also investigate the effect of opioid antagonists in the seizure-induced delay of puberty. A single daily electroconvulsive shock (ECS) was given for 10 days to neonatal (days 2-11), infantile (days 15-24) and juvenile (days 22-31) rats. The treatment delayed vaginal opening (VO) in juvenile rats. Neonatal and infantile rats were unaffected. VO was also delayed by daily ECS for only 5 days in the late juvenile (days 27-31) period. The opioid receptor antagonists naloxone, naltrexone and nalmefene injected before and after single daily ECS were unable to block this effect of ECS on VO. To examine whether the effect of ECS is related to stress, we examined several stressors known to induce opioid-mediated alterations in gonadotrophin secretion. Footshock, immobilization and ether stress administered in the juvenile period (days 27-31) did not affect the timing of VO. In addition, rats anaesthetized with halothane, and then given ECS, still showed a delay of VO. These data demonstrate that rats in the late juvenile stage of development are most sensitive to convulsions. We also suggest that opioids are not critical to the mechanism by which the ECS disturbs puberty, and that ECS elicits its effect seemingly independently of the convulsive stress.
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PMID:Seizure-induced delay of puberty in female rats: effects of age, stress and opioid antagonists. 275 60

Graded seizure responses to suprathreshold cerebral electroshock in mice were modified by drugs acting at mu- and at delta-opioid receptors. Morphine exerts a proconvulsant effect at a non-mu opioid receptor and may exert a simultaneous anticonvulsant effect at a mu-opioid receptor. Delta-opioid receptor blockade increases seizure severity, suggesting a predominantly anticonvulsant nature of the delta-opioid system in the seizure model tested here.
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PMID:Mu- and delta-opioid modulation of electrically-induced epileptic seizures in mice. 282

The relationship between wet-dog shaking (WDS) and afterdischarge (AD) elicited by dorsal hippocampal stimulation was investigated. The number of the WDS during a 150-s observation period was 9.6 +/- 2.0 (mean +/- SEM) and no WDS was seen during the non-seizure period. The effects of morphine and neuroleptics on WDS and AD were also investigated. Morphine significantly inhibited the number of WDS elicited by hippocampal stimulation. Naloxone significantly antagonized the inhibitory effect of morphine. Haloperidol and chlorpromazine significantly and dose-dependently inhibited the number of WDS at very small doses. The inhibitory effect of chlorpromazine on WDS was not antagonized by pretreatment with naloxone. The present results suggest that central dopaminergic mechanisms may be important in WDS elicited by hippocampal stimulation. The effect of morphine on WDS is probably mediated via an opioid receptor having a modulating effect on central dopaminergic mechanisms.
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PMID:Effects of morphine and neuroleptics on wet-dog shaking behavior elicited by hippocampal stimulation in rats. 286 Jun 86

The localization of opioid peptides in the rat hippocampal formation and the epileptogenic action of beta-endorphin and certain enkephalin analogues have led to speculations that opioids may play a role in limbic seizures. These immunochemical and electroencephalographic data are compatible with single-unit electrophysiological studies showing predominant excitations of hippocampal pyramidal neurons in CA1 and CA3 fields produced by iontophoresis of endorphins or enkephalins. These excitations are naloxone sensitive and appear to arise from a disinhibitory mechanism due to inhibition of inhibitory interneurons. Thus, intracellular recordings in in vitro preparations of hippocampus usually show opioid-induced reduction of inhibitory postsynaptic potentials. However, more recent studies suggest that a major opioid-containing pathway in the hippocampus, the mossy fiber projection from the dentate gyrus to CA3 pyramidal neurons, contains more pro-dynorphin-derived peptides than pro-enkephalin. Intracerebroventricular dynorphin does not induce epileptiform activity in the rat, and single-unit and field-potential studies show mixed effects on CA3 neuronal excitability, with more inhibitory responses than are seen with the enkephalins. Selective inactivation of mu opioid receptors reveals that dynorphin, which was previously shown to express specificity for kappa receptors, can act on delta receptors in CA1. Furthermore, a specific kappa agonist, U50,488H, has inhibitory actions when applied directly to CA3 neurons. These data suggest the presence of multiple opioid receptor types in the hippocampus. These multiple receptors may point to heterogeneous functions of the different families of opioid peptides in various regions of the hippocampus, and could explain the divergent effects reported for the various opioids and naloxone to promote or prevent paroxysmal activity.
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PMID:Opioid peptides and epileptogenesis in the limbic system: cellular mechanisms. 293 97

Microinfusion of morphine sulfate (50 nmol), [d-Ala2]-Met-enkephalin (35 nmol) or dynorphin A 1-13 (1 nmol) bilaterally into the substantia nigra significantly attenuated seizures induced by maximal electroshock in rats. This action was accompanied by stereotyped behavioral hyperactivity. These anticonvulsant and behavioral effects were antagonized by systemic naloxone administration; neither effect was observed after intranigral microinjection of dynorphin A 1-17 amide (1 nmol). These results are consistent with a mu opiate receptor-mediated inhibition of substantia nigra efferent neurons, and with the proposal that bilateral inhibition of nigral efferents attenuates seizure propagation. However, intranigral morphine failed to alter the severity of i.v. bicuculline seizures, indicating that opiate-mediated inhibition in substantia nigra is distinct from that produced by gamma-aminobutyric acid.
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PMID:Infusion of opiates into substantia nigra protects against maximal electroshock seizures in rats. 298 11

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