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 three cases of folinic acid-responsive intractable neonatal seizures. All patients were born at term following normal gestation and delivery. In the first infant, seizures began on the 5th day of life and were unresponsive to phenobarbital, pyridoxine, and valproate, but stopped within 24 hours of initiation of folinic acid treatment at the age of 6 months. Her sibling had died at age 6 months with intractable seizures. In the second infant, seizures began in the 2nd hour of life. These were initially controlled with phenobarbital; however, at 3 months of age she developed status epilepticus refractory to anticonvulsants, steroids, and pyridoxine and she required repeated induction of pentobarbital coma. Seizures stopped within 24 hours of starting folinic acid. Seizures and encephalopathy were noted in the third infant on the 2nd day of life. These were controlled with phenobarbital, but at 8 weeks of age seizures recurred and were difficult to control despite the addition of phenytoin. Immediately after folinic acid was initiated the seizures stopped. Breakthrough seizures in all patients have responded to increases in folinic acid; two of the three remain on standard anticonvulsants. All patients have global developmental delay. Cranial magnetic resonance imaging in the second patient shows diffuse atrophy, and in the third patient shows increased signal on T2 images in the white matter of the frontal and parietal lobes. Analysis of cerebrospinal fluid from these patients using high-performance liquid chromatography with electrochemical detection has consistently revealed an as-yet unidentified compound, which can be used as a marker for this condition. We suggest that cerebrospinal fluid be analyzed for the presence of this compound and a trial of folinic acid be considered in neonates with unexplained early onset intractable seizures.
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PMID:Folinic acid-responsive neonatal seizures. 1045 64

There are almost one hundred inborn errors of metabolism which can start in the neonatal period, but less than 20 are amenable to treatment. In general, an extremely evocative clinical setting is the course of a full-term baby born after normal pregnancy and delivery who, after an initial symptom-free period deteriorates relentlessly for no apparent reason and does not respond to symptomatic therapy. Investigations routinely performed in all sick neonates yield normal results. Emergency treatment must be undertaken in parallel with investigations. Five main presentations can be observed: a neurologic deterioration 'intoxication' type mostly suggests maple syrup urine disease, methylmalonic, propionic, isovaleric acidaemias and urea cycle disorders. Isolated seizures is the revealing symptom of pyridoxine-responsive and folinic acid responsive seizures. A jaundice or a liver failure suggest galactosaemia, fructosaemia, tyrosinaemia type I (after 3 weeks), phosphomannoisomerase deficiency or bile acid synthesis defects. Cardiac failure and heartbeat disorders should first suggest mitochondrial fatty acid oxidation (FAO) disorders. Persistent hypoglycaemia is the presenting sign of glyco/gluconeogeneis defects, hyperinsulinism and FAO disorders. The first line investigation relies upon the collection at the same time of a few samples including blood gases electrolytes, prothrombin time, transaminases, ammonia and lactic acid, and the search for ketonuria. The storage of plasma, urine and blood (on filter paper) is an important element in the diagnosis. The utilization of these samples should be carefully planned after taking advice from specialists in inborn errors.
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PMID:Clinical approach to inherited metabolic disorders in neonates: an overview. 1206 34

Seizures are one of the most frequently occurring neurologic phenomena in childhood; an inborn error of metabolism should always be considered in the diagnostic workup of patients with seizures after more common causes have been excluded. Many of the known inborn metabolic errors associated with seizures can be detected by metabolite measurement in urine or blood. It is now recognized, however, that there are several conditions in which peripheral metabolite profiles remain normal. Abnormal metabolism is indicated only by the accumulation or absence of specific metabolites within the central nervous system. Some of these disorders can be detected by in vivo magnetic resonance spectroscopy. More often, an etiology can be ascertained only by analysis of specific metabolites in cerebrospinal fluid. This review describes the utility of cerebrospinal fluid metabolite analysis in the differential diagnosis of inborn errors of metabolism that lead to infantile epilepsy. These include disorders of central nervous system energy metabolism, creatine synthesis and transport, serine biosynthesis, and glucose transport, together with defects affecting the gamma-aminobutyric acid (GABA), catecholamine, and serotonin neurotransmitter systems. In addition, information is provided regarding detection of an early-onset seizure disorder that responds to folinic acid.
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PMID:Value of lumbar puncture in the diagnosis of infantile epilepsy and folinic acid-responsive seizures. 1259 55

Neonatal seizures associated with white-matter changes on neuroimaging suggest an etiology of hypoxic-ischemic encephalopathy. Metabolic and idiopathic etiologies are also considerations but are less likely. Despite the fact that two disorders associated with neonatal seizures are diagnosed by cerebrospinal fluid neurotransmitter analysis, such an analysis is not standard in the work-up for idiopathic neonatal seizures. We describe an infant who had a prolonged delivery, seizures on the first day of life, and white-matter changes on neuroimaging. A progressive seizure disorder that was refractory to standard antiepilepsy medications developed at 2 months of age. Analysis of cerebrospinal fluid neurotransmitters at that time demonstrated a pattern consistent with folinic acid-responsive seizures. Seizures ceased 24 hours after starting folinic acid. Serial neuroimaging, electroencephalograms, and metabolic changes from this patient are presented. This case illustrates the importance of cerebrospinal fluid neurotransmitter analysis as part of the work-up for idiopathic neonatal seizures.
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PMID:Folinic acid-responsive seizures presenting as breakthrough seizures in a 3-month-old boy. 1367 84

The authors describe a 6-year-old girl with developmental delay, psychomotor regression, seizures, mental retardation, and autistic features associated with low CSF levels of 5-methyltetrahydrofolate, the biologically active form of folates in CSF and blood. Folate and B12 levels were normal in peripheral tissues, suggesting cerebral folate deficiency. Treatment with folinic acid corrected CSF abnormalities and improved motor skills.
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PMID:Cerebral folate deficiency with developmental delay, autism, and response to folinic acid. 1578 39

SE in the pediatric age group presents challenges in diagnosis and management. There is need for renewed consensus on the temporal definition of SE, both clinical and electrographic. SE in children exhibits an age-dependent vulnerability, with genetic predisposition and etiology as determinants of susceptibility. Nonepileptic phenomena may mimic SE. Clinical and electrographic SE in neonates are relatively rare, while serial (clinical and electrographic) and repetitive seizures are more common. Neurometabolic disease, chromosomal disorders, and abnormalities of cortical development are important etiological considerations. Abrupt discontinuation of or an aberrant response to AEDs can also precipitate SE. Metabolic perturbations and toxins can further aggravate the situation. Clinical and experimental data suggest that the longer a seizure lasts, the more difficult it becomes to control, and that seizures can have immediate and long-term adverse consequences on the immature and developing brain. Hence, treatment (usually with a benzodiazepine) should be started early in the clinical course. A trial of pyridoxine, biotin, or folinic acid should be considered in the appropriate clinical setting (e.g., neonates or young infants, in particular). Phenytoin/fosphenytoin and phenobarbital remain important treatment options. Pentobarbital and midazolam are preferred choices in the management of RSE. Once metabolic causes are excluded, children with RSE should be evaluated for surgical treatment early in the clinical course. Clinical guidelines based on best available evidence have to be periodically reviewed. The clinical consequences and management of electrographic SE, especially in the neonate, have to be addressed. Guidelines for continuous (video) EEG monitoring are needed to facilitate this task. AEDs that do not have an adverse effect on the developing brain have to be developed. Our review suggests a continuing need for prospective studies into all aspects of SE in the pediatric age group.
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PMID:Status epilepticus in pediatric practice: neonate to adolescent. 1638 32

This report presents a male who developed clonic seizures on the day he was born. The next day, the diagnosis of pyridoxine-dependent seizures was made. However, contradictory to this diagnosis, seizures reappeared despite treatment with pyridoxine. Seizures ceased after folinic acid was initiated. The clinical and biochemical characteristics of folinic acid-responsive seizures are reviewed. Treatment with folinic acid should be considered in neonatal seizures of unknown origin that do not respond to pyridoxine, or manifest a transient response to pyridoxine.
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PMID:Folinic acid-responsive seizures initially responsive to pyridoxine. 1645 34

Folate is essential for normal brain development. This report describes a 15-month-old boy who presented with generalized and focal seizures and a decline in mental status. Laboratory tests revealed low folate levels in blood (1.13 nmol/L) and cerebrospinal fluid, accompanied by pancytopenia. Bone marrow aspiration confirmed the presence of megaloblastic anemia. Treatment with high-dose intravenous folinic acid led to normalization of cerebrospinal folate levels. These findings apparently indicate a defect in folic acid transport to the central nervous system. A clinical picture of developmental arrest, seizures, somnolence, and megaloblastic anemia should alert physicians to the possibility of folate deficiency.
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PMID:Neurological manifestations of folate transport defect: case report and review of the literature. 1764 Dec 72

Folate is a water-soluble vitamin of the B complex group, and is required for optimal health, growth, and development. In humans, it cannot be synthesized de novo. As a cofactor or coenzyme, folate plays key biological roles in a variety of physiologic processes: maintenance and repair of the genome, regulation of gene expression, amino-acid metabolism, neurotransmitter synthesis, and the formation of myelin. Dietary folates must undergo multiple, tightly regulated absorption and metabolic processes before their cellular utilization occurs. Clinical conditions associated with abnormal body folate status are very diverse. They range from genetic syndromes defined prior to conception, to malformations that develop during embryogenesis (neural tube defects), to disorders that are postnatally acquired and progressive (e.g., cerebral folate deficiency, or folinic acid-responsive seizures). Central nervous system folate deficiency or impaired availability can occur in the settings of normal or decreased systemic folate levels. Because the majority of patients respond to treatment with folinic acid, pediatric neurologists should remain vigilant to the possibility of deficiencies of folate in patients with unexplained neurologic disorders. The deleterious outcomes of untreated patients underscore the importance of making an early diagnosis.
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PMID:Folate-responsive neurologic diseases. 1802 18

Folate transport to the brain depends on ATP-driven folate receptor-mediated transport across choroid plexus epithelial cells. Failure of ATP production in Kearns-Sayre syndrome syndrome provides one explanation for the finding of low spinal fluid (CSF) 5-methyltetrahydrofolate (5MTHF) levels in this condition. Therefore, we suspect the presence of reduced folate transport across the blood-spinal fluid barrier in other mitochondrial encephalopathies. In the present patient with mitochondrial complex I encephalomyopathy a low 5-methyltetrahydrofolate level was found in the CSF. Serum folate receptor autoantibodies were negative and could not explain the low spinal fluid folate levels. The epileptic seizures did not respond to primidone monotherapy, but addition of ubiquinone-10 and radical scavengers reduced seizure frequency. Add-on treatment with folinic acid led to partial clinical improvement including full control of epilepsy, followed by marked recovery from demyelination of the brainstem, thalamus, basal ganglia and white matter. Cerebral folate deficiency is not only present in Kearns-Sayre syndrome but may also be secondary to the failure of mitochondrial ATP production in other mitochondrial encephalopathies. Treatment with folinic acid in addition to supplementation with radical scavengers and cofactors of deficient respiratory enzymes can result in partial clinical improvement and reversal of abnormal myelination patterns on neuro-imaging.
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PMID:Mitochondrial complex I encephalomyopathy and cerebral 5-methyltetrahydrofolate deficiency. 1805 25


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