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)

The mechanism of action of tramadol includes the activation of opioid receptors, and the potential ability of the drug to induce tolerance and physical dependence has been evaluated in different animal species and humans. This work was designed to study the involvement of opioid receptors in the antinociceptive activity and the potential ability to develop tolerance, crosstolerance, and/or physical dependence of tramadol. The writhes induced by acetic acid administration was used as algesiometric test. After chronic administration of tramadol, tolerance was evaluated by measuring the antinociceptive activity, and physical dependence was measured by naloxone administration. Morphine was used as drug of comparison. The i.p. administration of tramadol produced a dose-dependent antinociception with an ED50 value of 7.82 +/- 1.16 mg/kg, which was unchanged after chronic administration of either tramadol (39.1 or 100 mg/kg) or morphine (1.05 or 100 mg/kg). By contrast, the ED50 for morphine (0.21 +/- 0.08 mg/kg) was significantly reduced only by chronic pretreatment with both doses of morphine (tolerance). Physical dependence was developed only in mice pretreated with morphine, as evidenced by the presence of jumps, wet-dog shakes, tachypnea, piloerection, seizures, diarrhea, and urination after the administration of naloxone (1 mg/kg). These findings suggest that the antinociceptive activity of tramadol in mice is due to activation of opioid and nonopioid mechanisms, and as opposed to morphine, is not likely to induce tolerance and physical dependence.
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PMID:Antinociception, tolerance, and physical dependence comparison between morphine and tramadol. 980 28

A fast and simple method for separation of 16 seizure drug substances using capillary electrophoresis in a non-aqueous separation medium is described. The separation medium consists of a mixture of acetonitrile, methanol and glycerol with ammonium acetate/acetic acid as the electrolyte. The analytes are detected by UV detection at 214 nm. Injection from the detection end (8.5 cm to detector) combined with the usage of a short capillary (32.5 cm total length) makes it possible to separate all 16 amines within 2 min. The choice of solvents, electrolytes and viscosity increasing additives are discussed with special emphasis to their influence on the separation selectivity.
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PMID:Fast separation of 16 seizure drug substances using non-aqueous capillary electrophoresis. 1007 70

A 35-year-old female presented with partial complex seizures. Computed tomography (CT) showed a slightly high density mass over the right frontal convexity, with heterogeneous contrast enhancement. T1-weighted magnetic resonance (MR) imaging showed the tumour as a hypo-intense lesion, with faint reticular enhancement after intravenous injection of gadolinium-diethylenetriaminepenta-acetic acid. The tumour was totally removed. The specimen was extremely soft and moist. The histological diagnosis was microcystic meningioma. The tumour cells were composed of typical meningothelial cells and stellate cells. The degenerative character of the tumour may be reflected in the poor enhancement on CT and MR imaging. This faint enhancement effect may be a neuro-imaging characteristic indication of this rare microcystic variant of meningioma.
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PMID:Unique radiological appearance of a microcystic meningioma. 1055 Jun 60

Acidophilia is one of the hallmarks of acute neuronal damage and death in brain ischemia, excitotoxic and traumatic lesions and epileptic seizures. We here describe a novel and simple method for visualizing acidophilic neurons on paraffin sections, using vanadium acid fuchsin (VAF) staining and toluidine blue or hematoxylin counterstaining. Paraffin sections of the brain fixed in ethanol-formalin-acetic acid mixture are stained in 0.1% acid fuchsin containing 0.125% of ammonium metavanadate and 1% of glacial acetic acid, differentiated if overstained in 0.01% of borax solution, and counterstained with 0.05-0.025% of toluidine blue in acetate buffer (pH 3.3) or Gill's II hematoxylin. The sections are dehydrated, cleared in xylene and mounted in Canada balsam or any synthetic mounting media for light microscopy. VAF combined with toluidine blue or hematoxylin results in highly selective and reproducible color contrast staining of acidophilic neurons as well as glial nuclei and hyperchromatic neurons. As a progressive method, acid fuchsin staining usually does not require differentiation. The red acidophilic neurons are clearly visible on the background of non-damaged cells, which significantly facilitates the identification, and localization of damaged neurons, even at low magnification under the light microscope.
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PMID:Improved selective, simple, and contrast staining of acidophilic neurons with vanadium acid fuchsin. 1077 32

Fluoroquinolones (FQs) are associated with a low incidence of central nervous system (CNS) side effects, possibly leading to convulsions, especially when co-administered with nonsteroidal anti-inflammatory drugs (NSAIDS). Although the in vivo pro-convulsant activity of NSAIDS is essentially unknown, the convulsant potential of FQs is traditionally evaluated by in vitro gamma-aminobutyric acid (GABA) binding experiments in the presence of 4-biphenyl acetic acid (BPAA), the active metabolite of fenbufen. The aim of this study was therefore to investigate the BPAA-norfloxacin convulsant interaction in vivo. Male Sprague-Dawley rats (n = 27) were given BPAA orally, at various doses 1 h before norfloxacin infusion, which was maintained until the onset of maximal seizures, when cerebrospinal fluid (CSF) and plasma samples were collected for analysis. An inhibitory E(max) effect model with a baseline effect parameter was fitted to the norfloxacin versus BPAA concentrations in the CSF, previously shown to be part of the biophase. This model includes three parameters: the concentrations of norfloxacin in the absence of BPAA (C(CSF0, Nor)), and when BPAA concentration tends toward infinity (C(CSFbase, Nor)), and the BPAA concentration for which half of the maximal effect is observed (C(CSF50, BPAA)). The maximal proconvulsant effect of BPAA is given by the C(CSF0, Nor) / C(CSFbase, Nor) ratio, estimated to approximately 6 in this study. Derived models were developed in plasma to account for the non-linear CSF diffusion of norfloxacin and protein binding of BPAA. In conclusion this study has shown that the convulsant interaction between norfloxacin and BPAA in rats, can be adequately characterized by modelling of the CSF concentrations of the two drugs at the onset of activity, following their administration in various proportions.
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PMID:Pharmacokinetic-pharmacodynamic modelling of the convulsant interaction between norfloxacin and biphenyl acetic acid in rats. 1078 Sep 65

Severe falciparum malaria, with its associated hyperpyrexia, distorts plasma levels of large neutral amino acids (NAA) and consequently, brain uptake of individual NAA. Since brain levels of NAA determine cerebral synthesis of monoamines (serotonin, histamine, catecholamines), we measured plasma concentrations of NAA, and also plasma histamine (Hm) in children with falciparum malaria and in uninfected controls. Malaria elicited a marked (P < 0.025) increase in plasma histidine (His) with a 5-fold significant (P < 0.001) elevation in histamine, as well as a 2.5-fold increase (P < 0.005) in plasma phenylalanine (Phe), with no changes in the other NAA. Using kinetic parameters of NAA transport at human blood-brain barrier (BBB), we showed that malaria significantly altered calculated brain uptake of His (+30%), Phe (+96%), Trp (-30%) and Ile (-27%), with no change in the other NAA, compared with controls. Our data suggested enhanced cerebral synthesis of Hm with impaired production of serotonin and the catecholamines in the patients, and therefore, the need to evaluate the encephalopathy in severe malaria within the context of abnormalities in metabolism of Hm and other monoamines resulting from imbalance in plasma levels of the large neutral amino acids. Of clinical relevance also is the impaired inactivation of increased brain Hm by antimalarials such as the widely used aminoisoquinolines leading to elevated brain levels of imidazole-4-acetic acid (IAA), a potent inducer of a sleep-like state often accompanied by seizures, analgesia, decreased blood pressure and other effects.
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PMID:Increased plasma levels of histidine and histamine in falciparum malaria: relevance to severity of infection. 1114 3

The ability of metal chelating agents to prevent neuronal death caused by intra-hippocampal injections of cupric sulphate, ferric citrate and zinc chloride was investigated. Ammonium tetrathiomolybdate was itself toxic after injection into the hippocampus, but this toxicity was reduced by formation of a metal ion/tetrathiomolybdate complex with Cu+2. Disodium bathocuproine disulphonate (BCDS) prevented neuronal death caused by Cu+2, but not that induced by Fe+3 or Zn+2. Desferrioxamine prevented death caused by Fe+3, had no significant effect of the toxicity of Zn+2, and increased that caused by Cu+2. Even though N,N,N',N'-tetrakis(2-pyridylmethyl)ethylenediamine (TPEN) has a higher affinity for Cu+2 than for Zn+2, TPEN had no effect on the toxicity of Cu+2 while totally preventing damage caused by Fe+3 or Zn+2. Ethylenediaminetetra-acetic acid (EDTA) prevented the toxicity of all three metal ions. Motor seizure activity occurred in most rats after injections of Fe+3; or combinations of Cu+2 plus TPEN, or 4 nmol Fe+3 plus 0.1 nmol desferrioxamine. However, apart from the low dose desferrioxamine/Fe+3 combination, only the occasional brain contained seizure-induced neuronal loss in limbic regions outside the injected hippocampus, and these brains were not used for analysis. Seizure activity was found even with very low levels of Cu+2 with a fixed amount of TPEN (a ratio of Cu+2/TPEN of 1:100), but the extent of hippocampal damage in these brains was not significantly different to that caused by injections of saline. These studies demonstrate that idiosyncratic interactions can occur between metal ions and chelating agents. Thus further investigations are needed before chelating agents can be examined for their protective properties in various neurodegenerative diseases.
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PMID:Comparative effects of metal chelating agents on the neuronal cytotoxicity induced by copper (Cu+2), iron (Fe+3) and zinc in the hippocampus. 1117 48

The headspace profiles of eleven methamphetamine (MA) samples have been analyzed using solid-phase microextraction/gas chromatography-mass spectrometry (SPME/GC-MS). Nine of the eleven are illicit MA seizures from the Southwest U.S. border. One sample is methamphetamine base synthesized in the Drug Enforcement Administration (DEA) Southwest Laboratory, and the remaining sample is pharmaceutical-grade methamphetamine hydrochloride that is used to make training aids for drug detecting canines. In addition. volatiles associated with 1-phenyl-2-propanone (P2P), a methamphetamine precursor, have been identified for comparison with those found in methamphetamine seizure and the two reference samples. Eighty-seven different compounds were identified from all the samples, not including simple hydrocarbons and aldehydes. Only seven occur consistently in all seizure samples, and these are: acetic acid, benzaldehyde, acetophenone, P2P, 1-phenyl-1,2-propanedione (P12P), 3-phenyl-3-buten-2-one, 1-chloro-1-phenyl-2-propanone. Dimethyl sulfone, a common cutting agent in methamphetamine. was found in six of the nine seizure materials. When the reference methamphetamine and P2P samples are included, only two compounds are common to all twelve samples, and these are benzaldehyde and P2P. As such, these two compounds are likely candidates for use in a pseudomethamphetamine (PM) formulation, and their effectiveness in eliciting a canine response is being evaluated before actual deployment.
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PMID:SPME/GC-MS characterization of volatiles associated with methamphetamine: toward the development of a pseudomethamphetamine training material. 1156 39

The proconvulsant effect of biphenyl acetic acid (BPAA) on several fluoroquinolones (FQs) was investigated in vivo, by measuring drug concentrations in the biophase at the onset of convulsions. Male Sprague-Dawley rats (n = 134) were given BPAA orally, at various doses 1 h before starting FQ infusion, which was maintained until the onset of maximal seizures, when cerebrospinal fluid (CSF) and plasma samples were collected for drug concentration determination. The FQ-BPAA interactions in the biophase (CSF) were adequately described on most occasions by an inhibitory Emax effect model with a baseline effect parameter. The efficacy of the proconvulsant effect was characterized by the ratio of the CSF concentrations of FQs at the onset of convulsant activity when BPAA was absent (CCSF0, FQs) and as BPAA CSF concentrations tended toward infinity (CCSFbase, FQs). This ratio varied from 15 for enoxacin to 1.9 for sparfloxacin. The potency of the proconvulsant effect was characterized by the CSF concentration of BPAA corresponding to a proconvulsant effect half of its maximum. This parameter varied between 0.18 +/- 0.06 micromol/L with enoxacin and 15.0 +/- 12.1 micromol/L with sparfloxacin. The CSF diffusion of all FQs was apparently non-linear, as well as the plasma protein binding of BPAA, complicating interpretation of plasma data. The important variability in the proconvulsant effect of BPAA demonstrated in this study between various FQs suggests that in vitro gamma-aminobutyric acid (GABA) binding experiments conducted in the presence of BPAA are unlikely to be good predictors of FQ convulsant risk in clinical practice.
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PMID:A pharmacokinetic/pharmacodynamic approach to show that not all fluoroquinolones exhibit similar sensitivity toward the proconvulsant effect of biphenyl acetic acid in rats. 1173 65

The effect of co-administration of ketamine at the sub-effective dose with diazepam, chlordiazepoxide and clonazepam on their antinociceptive and protective efficacy against pentetrazole-induced seizures were studied in mice. Ketamine alone produces dose-dependent antinociception manifested as reduction in the number of writhing episodes evoked by acetic acid. In the writhing test, the antinociceptive effects of the threshold doses of diazepam, chlordiazepoxide or clonazepam were not changed by ketamine, whereas that of morphine was intensified by ketamine. In the hot plate test, slight antinociceptive effects of the threshold dose of diazepam, but not that of chlordiazepoxide (except the results at 120 min of observation), were significantly intensified by ketamine vs ketamine alone. Ketamine alone was able to protect mice, in the dose-related manner, against pentetrazole-induced seizures. The anticonvulsant effects of the threshold doses of diazepam, chlordiazepoxide and clonazepam were not changed by ketamine. These findings indicate that co-administration of ketamine (at the sub-effective dose) with diazepam, chlordiazepoxide and clonazepam (at non-effective doses) resulted in an intensification of neither antinociceptive nor protective effect against pentetrazole-induced seizures in mice. These data seem to indicate the lack of interaction between ketamine and benzodiazepines with respect to their antinociceptive and anticonvulsant efficacy.
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PMID:Lack of interaction between the behavioral effects of ketamine and benzodiazepines in mice. 1213 7


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