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)

We report the preliminary results of an ongoing study of multiple sclerosis (MS) in childhood. The investigations include an analysis of the clinical picture and course. Multiple sclerosis in early childhood may present atypically, with a symptomatology suggesting diffuse encephalomyelitis, meningeal reaction, brain oedema, seizures, impaired consciousness and in some cases take a lethal course. Imaging studies including MRI and MR-spectroscopy, CSF-analysis, electrophysiology (VEP, BAEP, SER), and virological and immunological investigations are performed. So far 15 children have been studied. Their age at the onset of the disease ranged from 3 to 15 years. Abnormal CSF-findings with pleocytosis and oligoclonal IgG bands were present in 11 and 10 out of 15 patients respectively. MRI revealed numerous white matter lesions in the brain stem and cerebral hemispheres. VEP, BAEP and SER's were abnormal in most children. Proton magnetic resonance spectra from plaques exhibited a 50-80% decrease in N-acetyl aspartate, which is a potential marker of vital neuronal tissue, a decrease of the creatine pool and an increase of choline-containing compounds. Lactate was not increased. Our observations of MS in early childhood cast doubt on some of the previous notions concerning a latency period of several years between the exposure to a still unknown agent and the manifestation of MS. In view of atypical features in the initial phase, it would seem desirable to record cases of encephalomyelitis of undetermined origin as potential cases of MS and to register the further course for verification or exclusion.
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PMID:Multiple sclerosis in childhood: report of 15 cases. 833 16

Systemic administration of bicuculline (Bic) and 3-mercaptopropionic acid (MP) induces generalized seizure in laboratory animals. The effect of these convulsants on lactate dehydrogenase and citrate synthase activities in rat cerebral cortex was studied. Bic was administered i.p. at 1.0 mg/kg (subconvulsant dose) and 7.5 mg/kg (convulsant dose). MP was administered i.p. at 150 mg/kg (convulsant dose). Lactate dehydrogenase activity in cerebral cortex soluble and particulated fractions was not modified by the administration of Bic or MP. Citrate synthase activity in cerebral cortex homogenates increased about 40% by the administration of subconvulsant and convulsant doses of Bic. A similar increase was found after the injection of MP. No changes in the liver enzyme activity were found, suggesting tissue specificity. The finding of a higher activity of citrate synthase in cerebral cortex homogenates observed with the convulsants may be correlated with the increase in brain citrate levels reported in seizure states.
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PMID:Citrate synthase and lactate dehydrogenase activities in rat cerebral cortex following the administration of the convulsants bicuculline and 3-mercaptopropionic acid. 342 41

The substantia nigra pars reticulata (SNPR) has previously been shown to undergo tissue necrosis following status epilepticus induced by flurothyl in the rat. Even if the rat is ventilated, the SNPR develops necrosis if the epileptic period lasts more than 30 min. Rat brains were frozen in situ after 20 and 60 min of seizure activity and after 60 min of seizure activity followed by 60 min recovery. Labile energy metabolites were then analyzed in the SNPR and in the periaqueductal grey matter (PAG, control region). In the PAG, the metabolite changes during status epilepticus were similar to those reported for cerebral cortex and hippocampus. Measurements showed an unchanged ATP content and energy charge (97% and 98% of control, respectively) and an accumulation of lactate to 9.2 +/- 0.6 mumol/g in the 60-min group. In the PAG, all metabolites measured had returned to control values after 60 min of recovery. In the SNPR, the perturbation of the energy metabolites was much more pronounced during status epilepticus. The concentration of ATP decreased to 75 +/- 3%, the energy charge to 91% +/- 12% and the adenylate pool to 86.7 +/- 5.7% of control. Lactate accumulated to concentrations of 16.1 +/- 1.8 mumol/g and 24.9 +/- 2.3 mumol/g in the 20-min and 60-min groups, respectively. The concentration of lactate was still increased above control after 60 min recovery, whereas the concentration of ATP and the energy charge were lower than control. The findings demonstrate that sustained and intense neuronal activation can cause metabolic disturbance and thereby lead to necrosis.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Metabolic alterations underlying the development of hypermetabolic necrosis in the substantia nigra in status epilepticus. 380 59

A patient is presented who had therapy-resistant epileptic seizures from the 7th day of life. Examination at the age of 17 months revealed a mentally retarded boy with epileptic seizures, generalised myoclonic contractions, and abnormal ocular movements. A cerebral CT scan showed central and cortical atrophy. Lactate levels in serum, cerebrospinal fluid and urine were elevated, the pyruvate level was raised in serum. A quadriceps muscle biopsy revealed aspecific morphologic signs of a myopathy. Biochemical analysis showed decreased substrate oxidation rates in the mitochondria associated with low rates of ATP production. Total and free carnitine levels were decreased. Investigation of the respiratory chain revealed a defect in the proximal part of respiratory chain involving the region of coenzyme Q. Based on clinical and chemical data it is likely that the patient is suffering from a multi-system disorder.
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PMID:A mitochondrial encephalomyopathy: the first case with an established defect at the level of coenzyme Q. 395 32

Lactate concentrations in the cerebrospinal fluid of 104 patients were determined by the Monotest Lactate Kit. Lactate values were found higher in cases of bacterial meningitis than in patients not suffering from acute CNS disorders. Elevated lactate levels were also found in patients suffering from aseptic meningitis, septicemia, CNS trauma and cerebrovascular accidents, seizures and diabetes mellitus. The highest levels were found in cases of bacterial meningitis, but there was considerable overlapping between the groups. CSF lactate thus appears to have limited diagnostic value in the differential diagnosis between bacterial meningitis and other diseases with meningeal involvement.
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PMID:Value of CSF lactate in the differential diagnosis between bacterial meningitis and other diseases with meningeal involvement. 398 42

We present two unrelated patients, a boy and a girl, with a progressive neurologic disorder, characterized by psychomotor retardation, seizures and paresis, the illness being exacerbated during stressful periods. Lactate levels in serum and cerebrospinal fluid were elevated in both patients. Histopathologic studies of muscle tissue revealed mitochondrial abnormalities in the boy; in the girl, slight neuronal degeneration was observed. A cerebral biopsy in the girl showed abnormalities compatible with progressive poliodystrophy. Autopsy in the boy demonstrated progressive poliodystrophy. Biochemical studies in muscle tissue showed a defect of cytochrome aa3 in both patients, connected with a defect of cytochrome b in the girl. The association of defective pyruvate metabolism and progressive poliodystrophy is discussed.
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PMID:Progressive poliodystrophy (Alpers' disease) with a defect in cytochrome aa3 in muscle: a report of two unrelated patients. 630 65

Lactic acid concentration has been determined in the cerebrospinal fluid (CSF) of 715 patients suffering from various neurological diseases. It was found to be most often elevated in cases of ischemic cerebral infarction, cerebral contusion, arteriosclerotic dementia, metastatic encephalitis, bacterial meningitis, menigiosis carcinomatosa and after epileptic seizures. In fewer cases lactate levels were increased with brain tumors, encephalitis, viral meningitis and radiculitis. Diagnostic relevance of CSF lactic acid determination is discussed with regard to ischemic cerebral disorders, differential diagnosis of viral and bacterial meningitis and for the confirmation of epileptic seizures.
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PMID:[Importance of cerebrospinal fluid lactate determination in neurological diseases]. 686 67

The effects of intravenously administered lidocaine on the cerebral cortical energy state and glycolytic metabolism were studied in rats. In one series, rats were divided into five groups according to EEG patterns, i.e., control, desynchronized, synchronized, seizure (1-min duration) and recovery groups. With lidocaine infusion (0.75 mg/min), there were no significant changes from the control group in the cerebral energy state except for a modest increase in phosphocreatine (PCr) in the seizure group and a small decrease in ADP in the non-seizure groups. The cerebral energy charge remained unchanged. Lactate and pyruvate significantly decreased in the non-seizure groups. In a second series, rats were divided into five groups, i.e., control, lidocaine seizure groups (5-min duration, 1.5 mg/min) at hypocapnia, normocapnia and hypercapnia, and a bicuculline (1.2 mg/kg) seizure group. The metabolic changes during lidocaine seizure were essentially the same as those observed in the seizure group in the first series. However, the increase in PCr during lidocaine seizure was significant only in the hypocapnic and the normocapnic groups. Bicuculline-induced seizures were accompanied by a significant decrease in high energy phosphates. In summary, neither a non-seizure nor-seizure dose of lidocaine caused any reduction in the cerebral energy charge nor was there any evidence of increased anaerobic metabolism in the cerebral cortex during lidocaine-induced seizures.
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PMID:Cerebral energy state and glycolytic metabolism during lidocaine infusion in the rat. 721 27

The effect of repeated episodes of asphyxia on the fetal cardiovascular system and CNS was examined. The umbilical cord was occluded for 5 min, four times, at 30-min intervals in 11 chronically instrumented fetal sheep (118-126 d). Fetal electrocorticogram (ECoG), cortical impedance, ECG, heart rate, and blood pressure were continuously recorded for 3 d, after which neuronal loss was determined histologically. Each occlusion resulted in fetal hypoxemia and bradycardia accompanied by increased T/QRS ratio. Progressively severe hypotension and lactic acidosis developed during successive occlusions. The ECoG was depressed and cortical impedance increased with each occlusion. During the final occlusion, blood pressure fell to 3.5 +/- 1 kPa and heart rate to 93 +/- 9 bpm, T/QRS ratio increased to 0.44 +/- 0.3, and lactate rose to 7.2 +/- 1.2 mM/L. Three animals died from cardiac fibrillation during recirculation after the third or fourth occlusion. After the asphyxial episodes, blood pressure and heart rate returned to normal, and the T wave was inverted for 310 +/- 155 min. Lactate returned to baseline within 24 h. The ECoG remained depressed for 90 +/- 35 min, and intermittent seizures developed at 3.3 +/- 1.4 h after the last occlusion. Neuronal loss was primarily found in the striatum. The extent of neuronal loss correlated with the degree of hypotension, increase in T/QRS ratio, duration of postasphyxial ECoG depression, and number of seizures. These results indicate that transient asphyxial episodes compromise the ability of the heart to tolerate additional insults and further suggest that neuronal loss is a consequence of cardiovascular compromise secondary to asphyxia.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Repeated episodes of umbilical cord occlusion in fetal sheep lead to preferential damage to the striatum and sensitize the heart to further insults. 765 53

[6-14C]Glucose is the tracer sometimes recommended to assay cerebral glucose utilization (CMRglc) during transient or brief functional activations, but when used to study visual stimulation and seizures in other laboratories, it underestimated CMRglc. The metabolic fate of [6-14C]glucose during functional activation of cerebral metabolism is not known, and increased labeling of diffusible metabolites might explain underestimation of CMRglc and also reveal trafficking of metabolites. In the current studies cerebral cortex in conscious rats was unilaterally activated metabolically by KCl application, and CMRglc was determined in activated and contralateral control cortex with [6-14C]glucose or 2-[14C]deoxy-glucose ([14C]DG) over a 5- to 7-min interval. Local 14C concentrations were determined by quantitative autoradiography. Labeled precursor and products were measured bilaterally in paired cortical samples from funnel-frozen brains. Left-right differences in 14C contents were small with [6-14C]glucose but strikingly obvious in [14C]DG autoradiographs. CMRglc determined with [6-14C]glucose was slightly increased in activated cortex but 40-80% below values obtained with [14C]DG. [14C]Lactate was a major metabolite of [6-14C]glucose in activated but not control cortex and increased proportionately with unlabeled lactate. These results demonstrate significant loss of labeled products of [6-14C]glucose from metabolically activated brain tissue and indicate that [14C]DG is the preferred tracer even during brief functional activations of brain.
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PMID:Labeling of metabolic pools by [6-14C]glucose during K(+)-induced stimulation of glucose utilization in rat brain. 779 43


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