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)

Many adverse clinical events occur after pertussis immunization in children, but the pathophysiology is not well understood. It has been suggested that some of these adverse events may be due to biologically-active LPF and endotoxin present in DTP vaccines. Fifty-six children were studied who experienced severe reactions (fever greater than or equal to 40.5 degrees C, seizures, persistent crying greater than or equal to 3 hours or hypotonic-hyporesponsive episodes) within 48 hr of DTP immunization. Leukocytosis with neutrophilia was noted acutely (after vaccination) compared to follow-up (approximately one month later). No changes in insulin or glucose values were noted. Utilizing the CHO cell assay, no biologically-active LPF was found in the acute sera of children who had DTP-associated seizures. We found no evidence that biologically-active LPF or altered insulin/glucose metabolism were related to severe DTP-associated reactions.
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PMID:Pathophysiology of reactions associated with pertussis vaccine. 177 21

An eleven year old boy was referred because of sudden loss of consciousness, muscular weakness, poor general health, severe hypoglycemia with seizures and hepatomegaly. Response to oral glucose and galactose increased blood lactic acid and glucose at different times. Fasting values of blood lactic was normal, but glucose was found at 33 mg/dl. Similar test made up two hours after feeding revealed hyperlactatemia (35-50 mg/dL) and hyperglycemia (129 mg/dL). Glucagon did not result in a rise of glucose at fasting or feeding. Hepatic glycogen content was found 15 gm/100 mg of tissue. The enzyme activities revealed a deficiency of the liver debranching enzyme while leukocytes had normal enzyme activity. Hepatic biopsy showed liver fibrosis. The present case had the clinical characteristics of severe form of glycogen storage disease. A low carbohydrate and high protein diet was indicated in order to increase the gluconeogenic precursors. Although debranching enzyme deficiency is almost always benign a high carbohydrate diet induced a more severe expression of the disease.
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PMID:Diet therapy in severe clinical expression of debrancher deficiency. 184 14

Preischemic hyperglycemia aggravates brain damage following transient ischemia, and adds some special features to the damage incurred, notably a high frequency of postischemic seizures, cellular edema, and affectation of additional brain structures, such as the substanta nigra pars reticulata (SNPR). We raised the question whether mild intra-ischemic hypothermia (32-33 degrees C), known to reduce selective neuronal vulnerability in normoglycemic subjects, also ameliorates the characteristic damage observed in hyperglycemic animals. To that end, two series of experiments were performed. In the first, normo- and hypothermic animals were subjected to 10 min of ischemia during hyperglycemic conditions (plasma glucose 20-25 mmol.l-1), and allowed either 15 h or 1 week of recovery. In the second, both normo- and hyperglycemic animals were subjected to 15 min of ischemia (at normal or reduced temperature) and surviving animals were studied after 1 week of recovery. All normothermic, hyperglycemic animals developed postischemic seizures and died within the first 24 h. Mild hypothermia afforded substantial protection. Thus, 6/7 hypothermic animals subjected to 10 min of ischemia survived 1 week of recovery and none developed post-ischemic seizures. Of the hypothermic animals subjected to 15 min of ischemia 6/11 survived for 1 week, only one of which developed seizures. Protection by hypothermia was also shown by the histopathological analysis. Experiments with 10 min of ischemia and 15 h of recovery showed the expected damage in normothermic, hyperglycemic subjects. Hypothermia markedly reduced damage in all vulnerable structures, including the cingulate cortex and SNPR. The protection was most pronounced in the caudoputamen, where no affected neurons were seen in the hypothermic subjects. The experiments with 15 min of ischemia confirmed previous findings that mild hypothermia protects normoglycemic animals against the insult. The results also showed that hypothermia prevented most of the exaggeration of damage caused by hyperglycemia. However, under hypothermic conditions hyperglycemia still augmented damage in the cingulate cortex, medial and lateral venteroposterior thalamic nuclei, and SNPR, structures specifically damaged under hyperglycemic, normothermic conditions. This suggests that hypothermia has less of a protective effect on mechanisms causing such damage than on neuronal damage in the classic selectively vulnerable regions, particularly the caudoputamen.
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PMID:Influence of moderate hypothermia on ischemic brain damage incurred under hyperglycemic conditions. 185 66

The central nervous system (CNS) is clinically involved in approximately 40% of all systemic lupus erythematosis (SLE) patients. Minor psychiatric symptoms and abnormalities on neuropsychological testing are being detected with increasing frequency. This review summarizes current thinking concerning the diagnosis and pathogenesis of CNS lupus. The main symptoms of CNS lupus can be diffuse (generalized seizures, psychosis) or focal (stroke, peripheral neuropathies). Neuropsychiatric symptoms often occur in the first year of SLE, but are rarely the presenting symptoms of the disease. In studies on the pathology of CNS lupus, vasculopathy, infarcts and haemorrhages are often observed, whereas vasculitis is rare. Endocardial lesions and mural thrombi have also been reported in 33-50% of CNS lupus patients. In diagnostic imaging of the CNS, magnetic resonance imaging (MRI) scans often provide evidence for edema or small infarcts, both in focal and diffuse CNS lupus, whereas computerized tomography (CT) scans only show gross abnormalities. The first reports on position emission tomography (PET) scans in CNS lupus patients show decreased glucose uptake in the brain. The cerebral blood flow decreases during active diffuse and focal CNS lupus. The blood-brain barrier is somewhat more frequently impaired in diffuse CNS lupus. Intrathecal IgG and IgM production is observed in 25-66% of all CNS lupus patient. Various specificities of autoantibodies have been observed in CNS lupus. Of these, anticardiolipin (ACA) antibodies show a well-documented association with focal involvement of the CNS in SLE. These antibodies could cause thrombosis by interfering with the protein C pathway of fibrinolysis. In addition, they are associated with endocardial and valvular heart disease, which is often observed in SLE and which could cause embolism. The relation between ACA and diffuse CNS lupus is not yet clear. Low-avidity anti-DNA antibodies are also found in CNS lupus, possibly because of their cross-reaction with cardiolipin. Antineuronal antibodies and lymphocytotoxic antibodies have been associated with diffuse CNS lupus and abnormalities on neuropsychological testing. However, the population of these antibodies is rather heterogeneous and it has not been possible to assess a common target antigen. Therefore, it is still obscure whether there is also a second immune-mediated mechanism responsible for the development of the diffuse form of CNS lupus.
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PMID:Diagnosis and pathogenesis of CNS lupus. 186 69

Audiogenic seizure susceptibility was examined in SJL/J mice injected with glucose 15-30 min before priming and/or subsequent tests. The obtained results confirm previous reports that glucose will inhibit seizure activity if given shortly before a test. In addition, it was found that glucose give 2-4 days previously would counteract the inhibitory effect of glucose injected shortly before testing.
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PMID:Audiogenic seizure susceptibility: inhibitory effect of glucose injection is counteracted by prior glucose. 187 73

During this investigation, the use of iohexol was compared with iotrolan for canine cisternal myelography. Iohexol and iotrolan myelography was done in 6 dogs by cisternal puncture with a 6-week interval between both procedures; each dog served as its own control. Cerebrospinal fluid (CSF) was collected for baseline analysis from each dog immediately before the contrast agent was injected. Cerebrospinal fluid samples were obtained at 1, 3, 7, and 14 days after injection of each contrast medium for cytologic and chemical analysis. Total CSF leucocyte count and glucose concentration did not change significantly in comparison with baseline data in any of the samples. After the injection of iohexol, protein concentration increased significantly in the 24-hour sample, and lactate dehydrogenase activity increased significantly in the 3-day sample. Significant difference was not found between the different samples collected at 1, 3, 7, and 14 days, compared with both contrast media. None of the dogs had seizure activity during a 5-hour postmyelographic observation period. Pathologic changes were not found by gross or microscopic examination of the spinal cord. Although a degradation in time of radiographic quality of all myelograms took place, the average radiographic score decreased more rapidly with iohexol. The average score at 90 minutes with iotrolan was comparable with the score at 45 minutes with iohexol, and the average score at 150 minutes with iotrolan was better than the score at 90 minutes with iohexol. At 5 and 10 minutes after cisternal injection, no significant difference was observable between the myelograms, but from 45 minutes onward, myelograms with iotrolan were superior.
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PMID:Comparison of nonionic contrast agents iohexol and iotrolan for cisternal myelography in dogs. 188 98

The quantitative 2-[14C]deoxyglucose autoradiographic method was applied to the measurement of local cerebral metabolic rates for glucose in a model of genetic petit mal-like seizures in a strain of Wistar rats. During the experimental period, epileptic rats exhibited synchronous spike-and-wave discharges recorded from the cerebral cortex, whereas the electroencephalographic pattern of control animals was normal. An overall consistent increase in local cerebral metabolic rates for glucose was observed in epileptic rats as compared to nonepileptic control rats. This increase was statistically significant in 52 of the 59 cerebral structures studied and concerned all cerebral functional systems. These results are in accordance with positron emission tomography measurements in humans with typical childhood absence epilepsy. There is a lack of anatomical correlation between areas demonstrating hypermetabolism and areas where spike-and-wave discharges are recorded. Thus, the diffuse increase in cerebral energy metabolism in epileptic rats as compared to controls is not directly related to the occurrence of spike and wave discharges.
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PMID:Local cerebral glucose utilization in rats with petit mal-like seizures. 189 87

Acute episodes of focal neurological dysfunction are a well-recognized complication of the mitochondrial encephalomyopathies. Because of rapid remission, biochemical tests and other diagnostic procedures are mostly performed after the acute phase. We report the case of a patient suffering from mitochondrial disease manifesting primarily with seizures, progressive deafness and dementia, who experienced multiple stroke-like episodes. Other members of the family with evidence of mitochondrial dysfunction are presented briefly. EEG and biochemical findings in the acute stage are correlated with clinical symptoms, showing characteristics distinct from the chronic illness. The possible involvement of dietary factors in the provocation of stroke-like episodes is discussed and regulation of glucose intake suggested as a strategy in the prevention of stroke-like episodes.
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PMID:Stroke-like episodes in familial mitochondrial encephalomyopathy: clinical and biochemical aspects. 190 33

Cessation of chronic (5 days), unilateral infusion of GABA into the somatomotor cortex of rats induces focal epileptic spikes which remain limited to the infused site and never evolve into generalized seizures. We have considered this finding as a new model of focal epilepsy and named it "GABA withdrawal syndrome". In the present study, we have measured local cerebral glucose utilization in order to map the cortical and subcortical regions involved in the GABA withdrawal syndrome. Local cerebral glucose utilization increased two- to three-fold in a 1-1.5 mm diameter area, involving all the cortical layers at the GABA-infusion site. This hypermetabolic area contained a central (1-2 mm diameter) hypometabolic zone showing neuronal depopulation in some animals. Except for the epileptic focus, the hemisphere ipsilateral to the infusion site was slightly hypometabolic. However, there was a large increase (three- to five-fold) in some ipsilateral thalamic nuclei (posterior oralis, ventralis postero-lateralis, centralis lateralis, ventralis lateralis and reticularis thalami nucleus). The local cerebral glucose utilization of the contralateral cortex and thalamus were unchanged. The present results confirm the focal nature of the epileptogenic syndrome produced by stopping chronic, intracortical GABA infusion. These results are markedly different from those described in the penicillin focal epilepsy model. Our data also show that specific ipsilateral thalamic relays may, by an as yet unknown mechanism, play a role in maintaining paroxysmal activity during the GABA withdrawal syndrome.
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PMID:Metabolic anatomy of the focal epilepsy produced by cessation of chronic intracortical GABA infusion in the rat. 190 65

We report an [18F]fluordeoxyglucose (FDG)-PET study performed in an 11-year-old girl with a 5-month history of epilepsia partialis continua (epc). Visual inspection of PET images showed a hypermetabolic focus in the right central cortex and in the ipsilateral thalamus, which was confirmed by the absolute values of regional cerebral glucose metabolism (rCMRGlu). The thalamic hypermetabolism provides evidence for an involvement of thalamic nuclei in this ictally epileptic process. The scalp EEG revealed a theta-delta and sharp wave focus in the right Rolandic cortex at the same location as the hypermetabolic zone seen in PET. Simultaneously recorded EMG of the left tibialis anterior muscle showed regular jerks, time-locked to the sharp waves at the right central region, and myoclonic 'storms' during focal motor seizures. The results of the brain biopsy and the child's clinical course led us to a diagnosis of 'chronic encephalitis' of Rasmussen.
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PMID:Epilepsia partialis continua studied by PET. 190 38


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