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)

Inborn errors of metabolism often cause epilepsy, as with certain strains of mice. Aggravating the metabolic defect with a protein synthesis inhibitor increases the symptoms. Mature animals that have "outgrown" their genetic susceptibility to audiogenic seizures are made susceptible again by acetoxycycloheximide. After a single small dose the incidence and severity of audiogenic seizures increases at 16 hours, reaches a maximum of 40 hours, and then declines gradually.
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PMID:Acetoxycycloheximide enhances audiogenic seizures in DBA-2J mice. 508 90

OBJECTIVE: The aim of this work was to evaluate a protocol for investigation of Inborn Errors of Metabolism (IEM) in children who are acutely ill.METHODS: Forty six children with clinical suspicion of a metabolic disorder were studied during 2 years. They were selected through request for investigation of IEM from Pediatrics or Neonatal Intensive Care Units located in the metropolitan area of Porto Alegre. Criteria for inclusion were presence of one or more of the following clinical alterations, without defined etiology: Metabolic acidosis, electrolyte disturbances, hypoglycemia, seizures, lethargy, liver disfunction, family history suggestive of IEM. The protocol included clinical evaluation, compulsory tests (performed in all patients) and optional tests (performed selectively according to the results from the first tests or through specific clinical hypothesis).RESULTS: Six cases of IEM were identified: galactosemia, non-ketotic hyperglycinaemia, propionic acidemia, isovaleric acidemia, 3-hydroxy-3-methylglutaric acidemia and deficiency of 3-ketothiolase deficiency.CONCLUSIONS: The frequency of organic acidurias in this group was 4/46 (8.7%), which justifies the inclusion of organic acids analysis among the first line exams in acutely and severely ill children with undefined etiology. The relatively high frequency of IEM (6/46 or 13%), which is comparable to the ones observed in other studies within high risk groups, indicates that the protocol suggested is efficient and justifies the systematic investigation of IEM in not explained critically ill children.
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PMID:[Application of a clinical and laboratory protocol for the investigation of inborn errors of metabolism among critically ill children] 1464 47

A neonate presenting to the emergency department can present a challenge to even the most experienced clinician. This article has focused on four deceiving and potentially devastating neonatal diseases. 1. Neonatal herpes is a potentially devastating illness without pathognomonic signs or symptoms. Early recognition and therapy can reduce mortality markedly. Although no specific sign or symptom is diagnostic,the diagnosis should be strongly considered in the presence of HSV risk factors, atypical sepsis, unexplained acute hepatitis, or focal seizure activity. Acyclovir therapy should be initiated before viral dissemination or significant CNS replication occurs. 2. Pertussis is a disease in which infants are at greatest risk of death or severe complication. Neonatal pertussis often presents in an atypical manner, lacking the classic signs and symptoms such as the "whoop."More common signs and symptoms include cough, feeding difficulty,low-grade fever, emesis, increasing respiratory distress, apnea, cyanosis,and seizures. Management should include hospitalization, supportive care, and antibiotics. 3. Congenital heart defects, particularly ductal-dependent lesions, may have an initial asymptomatic period that culminates in a rapidly progressive and fatal course. A neonate with CHD presents with shock refractory to volume resuscitation or pressor support. Resuscitative efforts are ineffective unless PGE, is administered. 4. Inborn errors of metabolism often are unsuspected because of their protean and heterogeneous nature. Signs and symptoms are subtle,are nonspecific, and often mimic other, more common diseases.An elevated index of suspicion, along with application and correct interpretation of a select few laboratory tests, is the key to making a diagnosis. Therapy is relatively straightforward and focused on resuscitation followed by prevention of catabolism and correction of specifically identified abnormalities. Although these disorders are relatively uncommon, prompt diagnosis and therapy can lead to a decrease in morbidity and mortality. The key is to maintain a high index of suspicion.
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PMID:Unsuspected neonatal killers in emergency medicine. 1547 77

Autism is an etiologic heterogeneous entity caused by many different diseases occurring in the central nervous system at an early stage in life. Several metabolic defects have been associated with autistic symptoms with a rate higher than that found in the general population. Inborn errors of metabolism can probably account for less than 5% of individuals. Selective metabolic testing should be done in the presence of suggestive clinical findings, including lethargy, cyclic vomiting, early seizures, dysmorphic features, and mental retardation. In some patients, early diagnosis of the metabolic disorders and proper therapeutic interventions may significantly improve the long-term cognitive and behavioral outcome.
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PMID:Autism and metabolic diseases. 1807 13

From June 1998 to May 2007, 9566 urine samples were collected from patients with psychomotor deficits, seizures, vomiting and unconsciousness in Peking University First Hospital. Their urine organic acids profiles were analysed using gas chromatography - mass spectrometry (GCMS), GCMS solution and Inborn Errors of Metabolism Screening System software. In all patients, blood acylcarnitines were analysed using tandem mass spectrometry. One hundred and sixty-eight patients (1.76%) with organic acidurias were detected. Among them, 116 (116/ 168, 69.0%) had methylmalonic aciduria, 63 (54.3%) of these 116 patients had methylmalonic aciduria combined with homocysteinemia. Sixteen (9.5%) of those patients detected with organic acidurias had propionic aciduria, and 15 (8.9%) had multiple carboxylase deficiency. Seven (4.2%) had glutaric aciduria type 1. After dietary treatment, medicine and rehabilitation, clinical improvements were observed in more than half of the patients. Twenty-eight of the 168 patients (16.7%) recovered and led a normal life. The method of urine organic acid analysis by gas chromatography - mass spectrometry and blood acylcarnitines analysis by tandem mass spectrometry have been established and applied successfully in China, namely Beijing, Shanghai, Wuhan and Guangzhou. The prognoses of Chinese patients with organic acidurias have also improved significantly.
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PMID:Outcome of organic acidurias in China. 1990 73

This is an update on severe epilepsies in infancy that are associated with genetic etiologies, either chromosomal abnormalities or gene mutations. These severe epilepsies may present the clinical and electroencephalographic phenotype of the so called epileptic encephalopathies, although a significant number of cases do not comply with the criteria to be included among the already known categories, as classified by the International League Against Epilepsy. Several chromosomal abnormalities, with or without a characteristic physical phenotype, are associated with epileptic encephalopathies in infants. Many patients are affected by metabolic or structural cerebral diseases of genetic etiology, in which seizures are not the only manifestation. Inborn errors of metabolism, deficiencies in cerebral transporters, mitochondrial encephalopathies, several neuroectodermosis, and part of the brain malformations and disorders of cortical development are examples. Recognition of new gene mutations in infants with epileptic encephalopathies or other severe epilepsies whose brain imaging studies, neurometabolic screenings and conventional cariotypes are normal, is emphasized in this review. An algorhythm for diagnosis and treatment of neonatal seizures with no determined etiology is also included. Finally, the new molecular genetics techniques applied in the diagnostic approach of these conditions, such as Array Comparative Genomic Hybridization, the identification of copy number variations and the eventual sequencing of genes, are commented but not described. The concept for pediatricians and pediatric neurologists is that mutations in one gene may provoke different epileptic syndromes, whereas one epileptic syndrome may be provoked by mutations in different genes.
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PMID:[Genetic etiologies associated with severe epilepsies in infancy]. 2307 Jan 85

Inborn errors of metabolism comprise a large class of genetic diseases involving disorders of metabolism. Presentation is usually in the neonatal period or infancy but can occur at any time, even in adulthood. Seizures are frequent symptom in inborn errors of metabolism, with no specific seizure types or EEG signatures. The diagnosis of a genetic defect or an inborn error of metabolism often results in requests for a vast array of biochemical and molecular tests leading to an expensive workup. However a specific diagnosis of metabolic disorders in epileptic patients may provide the possibility of specific treatments that can improve seizures. In a few metabolic diseases, epilepsy responds to specific treatments based on diet or supplementation of cofactors (vitamin-responsive epilepsies), but for most of them specific treatment is unfortunately not available, and conventional antiepileptic drugs must be used, often with no satisfactory success. In this review we present an overview of metabolic epilepsies based on various criteria such as treatability, age of onset, seizure type, and pathogenetic background.
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PMID:Metabolic epilepsy: an update. 2327 90

Inborn error of metabolism may produce a complex clinical picture in which epilepsy is only one of the various neurologic manifestations including developmental delay/regression, mental retardation, and movement disorders. However, metabolic epilepsies may dominate the clinical presentation. A specific diagnosis of metabolic disorders in epileptic patients may provide the possibility of specific treatments that can improve seizures. In a few metabolic diseases such as vitamin-responsive epilepsies, epilepsy responds to specific treatments based on supplementation of cofactors. Certain rare vitamin-responsive inborn errors of metabolism may present as early encephalopathy with anticonvulsant-resistant seizures. These include pyridoxine-dependent seizures, pyridoxal-phosphate-dependent seizures, folinic acid-responsive seizures, and biotinidase deficiency. This review discusses our current understanding of these vitamin-responsive epilepsies.
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PMID:[Vitamin-responsive epilepsies: an update]. 2408 39

Inborn errors of metabolism (IEM) are characterized by the body's inability to convert food into energy. The pathogenetic mechanism is based on defects in a variety of cellular enzymes. In addition to impairment of energy generation, accumulation of substrates may occur, which can deposit in tissue and lead to organ dysfunction. IEM can have profound implications for perioperative management, including difficult airway management, cardiac dysfunction, aspiration risk, seizures, and metabolic dysregulation. For the anesthesiologist, comprehensive knowledge is difficult to attain because of the heterogeneity of this group and the low prevalence of specific diseases. The first part of this article reviews intermediary metabolism, whereas the second part aims to highlight important aspects in perioperative management of patients with IEM. Instead of reviewing each single disorder within the vast group of IEM, we provide a conceptual framework that will facilitate the understanding of main problems encountered in each of the disease subgroups.
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PMID:Anesthetic Management of Patients With Inborn Errors of Metabolism. 2881 23

Inborn errors of metabolism (IEM) are rare conditions that represent more than 1000 diseases, with a global prevalence of approximately 1:2000 individuals. Approximately, 40%-60% of IEM may present with epilepsy as one of the main neurologic signs. Epilepsy in IEM may appear at any age (fetal, newborn, infant, adolescent, or even adult). Different pathophysiological mechanisms may be responsible for the clinical phenotype, such as disturbances in energy metabolism (mitochondrial and fatty oxidation disorders, GLUT-1, and cerebral creatine deficiency), accumulation of complex molecules (lysosomal storage disorders), toxic mechanisms (organic acidurias and urea cycle disorders), or impairment of neurotransmission. Early diagnosis and, in some cases, an effective treatment may result in an excellent evolution of the IEM, in particularly seizure control. This review attempts to delineate a summary of IEM that may present with seizures or epilepsy and emphasizes the management in treatable conditions.
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PMID:Epilepsy in Inborn Errors of Metabolism With Therapeutic Options. 2828 93


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