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)

Mitochondrial DNA (mtDNA) disorders are clinically very heterogeneous, ranging from single organ involvement to severe multisystem disease. One of the most frequently observed mtDNA mutations is the A-to-G transition at position 3243 of the tRNA(Leu (UUR)) gene. This mutation is often related to MELAS syndrome. However, not all patients with the A3243G mutation share the same clinical disease expression and, on the contrary, patients clinically exhibiting MELAS syndrome may have other mtDNA mutations. Here we describe two patients with a very early infantile presentation of disease associated with the A3243G mutation. Patient 1 presented with hypotonia, feeding difficulties and failure to thrive (FTT) at the age of 3 months. Laboratory investigations showed persistent hyperlactic acidemia, elevated lactate/pyruvate ratios and elevated alanine concentrations in blood. Developmental delay was progressive and he developed cardiomyopathy and seizures. Death occurred at the age of 3.5 years. Patient 2 was born prematurely and had persistent, severe lactic acidosis from birth on. Moderate biventricular hypertrophy was seen on ultrasound studies of the heart and, suffering from progressive lactic acidosis, he died at the age of 13 days. Because of the rarity of this very early presentation, we searched the literature for other infantile cases associated with the A3243G mutation and found 8 additional ones. In infants presenting with lactic acidosis/hyperlactic acidemia, failure to thrive, hypotonia, seizures and/or cardiomyopathy, mtDNA mutational analysis, also for the disease entities, usually only observed in juveniles or adults is warranted.
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PMID:Infantile presentation of the mtDNA A3243G tRNA(Leu (UUR)) mutation. 1157 98

We report three children, each of whom seemed to have a primary mitochondrial disorder at presentation but was eventually diagnosed with an extramitochondrial inherited metabolic disease. The first patient presented at 6 months with developmental delay. Magnetic resonance imaging showed an abnormal signal in the white matter, and magnetic resonance spectroscopy showed elevated lactate peaks. A muscle biopsy showed complex IV deficiency, but leukocyte measurement of galactosylceramide beta-galactosidase activity was markedly diminished, consistent with Krabbe's disease. The second patient presented at birth with seizures and later had developmental delays. There was brain atrophy on neuroimaging. Serum and cerebrospinal fluid lactate levels were elevated. She had persistently elevated urine thiosulfate, which was diagnostic for molybdenum cofactor deficiency. The third child presented at 2 months with seizures and hypotonia. Magnetic resonance imaging showed an abnormal signal in the basal ganglia and surrounding white matter, whereas magnetic resonance spectroscopy showed elevated lactate peaks. A brain biopsy was diagnostic for Alexander's disease. These cases and others in the literature suggest that lactic acid elevation in the central nervous system can be found in a number of extramitochondrial neurologic diseases. Such diseases would constitute a third category of lactic acidosis.
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PMID:Lactic acid elevation in extramitochondrial childhood neurodegenerative diseases. 1157 6

Disorders of mitochondrial DNA (mtDNA) may commonly present to primary care physicians but go undiagnosed. A 36-year-old man with a 15-year history of psychosis, seizures, and sensorineural hearing loss and a family history of diabetes mellitus and heart disease presented to our hospital without a unifying diagnosis. Physiologic, biochemical, and genetic testing revealed deficient aerobic metabolism, a defect in mitochondrial electron transport, and the presence of an A-to-G point mutation at position 3243 of the mitochondrial leucine-transfer RNA gene, establishing the diagnosis of mitochondrial encephalopathy, lactic acidosis, and strokelike syndrome (MELAS). Diagnosing mtDNA disorders requires a careful integration of clinical signs and symptoms with pedigree analysis and multidisciplinary testing. Diagnosis is important to provide genetic counseling, avoid unnecessary evaluation, and facilitate therapy for symptomatic relief.
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PMID:mtDNA disease in the primary care setting. 1170 Jan 63

We reported a 37-year-old man who presented complex partial status epilepticus as the initial symptom of mitochondrial encephalomyopathy, lactic acidosis, and stroke-like episodes (MELAS). He showed fluctuating consciousness disturbance, left homonymous hemianopsia, and paroxysmal conjugated eye deviation to the left. The lactic acid level was elevated in blood and CSF, and ragged-red fibers were observed in the biopsied muscle. MRI demonstrated T2-prolonged lesions in the right occipito-parieto-temporal lobes. Since a mutation of mitochondrial DNA (A3243G) was identified, he was diagnosed as having MELAS. On an ictal record, high amplitude, rhythmic sharp waves were observed at right parieto-temporo-occipital region. High amplitude slow waves were also observed on the right hemisphere, especially in the right frontal lobe. These ictal discharges gradually decreased at their amplitude and in frequency, and then ictal EEG turned to the interictal EEG. During an ictal period, conjugated eye deviation to the left side and consciousness loss were observed. These seizures were observed once every several minutes. During the interictal period, sharp waves and sharp-wave complexes were observed frequently at right parietal and posterior temporal lobes. The venous injection of diazepam (10 mg) normalized EEG quickly. When consciousness loss, especially fluctuating, was observed in the patients of MELAS, complex partial status epilepticus should be considered.
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PMID:[A case of MELAS presenting complex partial status epilepticus]. 1188 32

Mitochondrial cytopathies are caused by genetic alterations of nuclear- or mitochondrial-encoded genes involved in the synthesis of subunits of the electron transport chain. Mutations of mitochondrial DNA are associated with a wide range of clinical presentations [1-4]. The ubiquitous nature of mitochondria and the role of the mitochondria in cellular metabolism result in the potential for any tissue in the body to be affected [5-7,8..,9]. Although some children with mitochondrial disease present with life-threatening lactic acidosis in the newborn period, the majority of children come to clinical attention for nonspecific problems, including failure to thrive, developmental delay, seizures, hypotonia, and loss of developmental milestones. The diagnosis of these disorders is made through careful clinical evaluation, coupled with biochemical, morphologic, and molecular biologic techniques. Genetic counseling is difficult due to unique aspects of mitochondrial genetics. Despite advances in our understanding of mitochondrial biochemistry and genetics, treatment options remain limited.
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PMID:Diagnosis and treatment of childhood mitochondrial diseases. 1189 15

MEHMO (Mental retardation, Epileptic seizures, Hypogenitalism, Microcephaly and Obesity) is an X-linked disorder characterised by mental retardation, epileptic seizures, hypogenitalism, microcephaly and obesity. It was recently assigned to the locus Xp21.1-p22.13. We describe a child with MEHMO and lactic acidosis whose muscle biopsy revealed markedly reduced activities of complexes 1,3 and 4 of the mitochondrial electron transport chain. Histological staining showed mitochondrial proliferation and lipid storage. Electron microscopy revealed abnormal and enlarged mitochondria with concentric cristae and electron dense bodies. This is the first identification of MEHMO as a mitochondrial disorder and one of the very few X-linked mitochondrial syndromes.
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PMID:MEHMO (Mental retardation, Epileptic seizures, Hypogenitalism, Microcephaly, Obesity): a new X-linked mitochondrial disorder. 1203 29

Mitochondrial encephalomyopathy, lactic acidosis and stroke-like episodes syndrome (MELAS) is a maternally inherited multisystem disease caused by mutations of the mitochondrial DNA. The characteristic clinical features are: encephalopathy manifesting as dementia and seizures, stroke-like episodes at young age (usually < 40), lactic acidosis and myopathy with ragged-red fibres. Other frequent manifestations include: sensorineural deafness, diabetes, hypoparathyroidism, peripheral neuropathy and cardiomyopathy. We present two patients with MELAS who were diagnosed 4 and 9 years respectively following the onset of the disease despite the characteristic clinical pictures. The differential diagnostics of inborn and acquired disorders causing stroke is included. We regard that mitochondrial diseases are still insufficiently known and are frequently misdiagnosed. The knowledge is indispensable for establishing diagnosis and accurate genetic counselling. Although there is no specific therapy for mitochondrial diseases to date, coenzyme Q and various vitamins as well as moderate degree exercise might be recommended.
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PMID:[MELAS--mitochondrial encephalomyopathy with lactic acidosis and stroke-like episodes syndrome--two cases confirmed by biochemical and molecular investigations. Differential diagnosis of stroke causes]. 1218 2

Acid-sensing ion channels (ASICs) open when extracellular pH drops and they are enhanced by lactate, making them specialized for detecting lactic acidosis. Highly expressed on cardiac nociceptors and some other sensory neurons, ASICs may help trigger pain caused by tissue ischemia. We report that H(+) opens ASIC3 by speeding release of Ca(2+) from a high-affinity binding site (K(Ca) = 150 nM) on the extracellular side of the pore. The bound Ca(2+) blocks permeation and the channel conducts when multiple H(+) ions relieve this block. Activation through Ca(2+) explains sensitivity to lactate, which decreases extracellular [Ca(2+)], and it may prove relevant in CNS pathologies (stroke, seizure) that simultaneously drop pH and Ca(2+).
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PMID:Protons open acid-sensing ion channels by catalyzing relief of Ca2+ blockade. 1252 74

Aggravation of neuronal damage by preischemic hyperglycemia, i.e. the glucose paradox of cerebral ischemia, is a well-established phenomenon that has prompted clinicians around the world to closely monitor and control blood glucose levels in surgical cases at high risk for ischemic episodes. The widely prevalent idea that lactic acidosis is responsible for hyperglycemia-enhanced ischemic neuronal damage is challenged with the hypothesis that glucose-elicited corticosterone release is a more compelling explanation of the glucose paradox. Corticosterone is the main rodent glucocorticoid, and has important effects on glucose metabolism. Rats were exposed to 7 min of cardiac arrest-induced transient global ischemia. Plasma glucose and corticosterone (CT) levels were manipulated and monitored to assess their effects on delayed neuronal damage as measured 7 days postischemia using electrophysiological and histological methods. Seizure activity was assessed 24 h postischemia. The results demonstrate that the extent of postischemic neuronal damage correlates with plasma CT level, not glucose, at the onset of ischemia. Moreover, an elevation in plasma glucose levels triggers a significant increase in CT plasma levels. Pretreatment of hyperglycemic rats with the CT synthesis inhibitor metyrapone or the CT receptor antagonist, RU38486, prevents hyperglycemic aggravation of ischemic neuronal damage. The increased incidence of seizure and delayed neuronal damage resulting from preischemic hyperglycemia corresponds with CT levels rather than with glucose levels and suggests that CT has a greater prognostic value than glucose in predicting cerebral ischemic damage.
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PMID:The glucose paradox of cerebral ischemia: evidence for corticosterone involvement. 1269 32

Lactic acidosis is a common cause of metabolic acidosis and is usually connected with high mortality. However, changes in the level of lactate and pH can also be seen after generalized epileptic attacks, due to local muscle hypoxia during the seizures. Although these changes can be quite marked, the condition is self-limiting and usually does not call for any specific treatment. We report five cases of lactic acidosis following convulsions from our centre.
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PMID:Lactic acidosis following convulsions. 1269 23


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