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16 results on '"Artuch R"'

1. [Neurological, neuropsychological, and ophthalmological evolution after one year of docosahexaenoic acid supplementation in phenylketonuric patients].

Author

Gutiérrez-Mata AP, Vilaseca MA, Capdevila-Cirera A, Vidal-Oller M, Alonso-Colmenero I, Colomé R, López-Sala A, Lambruschini-Ferri N, Gutiérrez A, Gassió R, Artuch R, and Campistol J

Subjects
Adolescent, Arachidonic Acid blood, Child, Docosahexaenoic Acids administration & dosage, Docosahexaenoic Acids blood, Docosahexaenoic Acids deficiency, Erythrocytes chemistry, Evoked Potentials, Visual, Executive Function physiology, Fatty Acids, Unsaturated deficiency, Female, Follow-Up Studies, Humans, Magnetic Resonance Imaging, Male, Membrane Lipids analysis, Neuropsychological Tests, Psychomotor Performance, Reaction Time, Treatment Outcome, Vision Tests, Young Adult, Brain pathology, Dietary Supplements, Docosahexaenoic Acids therapeutic use, Phenylketonurias diet therapy
Abstract

INTRODUCTION. Phenylketonuria (PKU) is an autosomal recessive metabolic disease caused by a deficiency of phenylalanine hydroxylase. The dietary therapy for the effective management of PKU, in particular the restriction of high-protein foods of animal-origin, compromises patients' intake of fat and distorts the n-3:n-6 ratio of essential fatty acids in the diet. This deficiency can contribute to neurological and visual impairment. AIM. To evaluate changes in white matter alterations, visual evoked potential (VEP) latencies and performance in executive and motor functions in a group of early and continuously treated PKU patients after supplementation with docosahexaneoic acid (DHA). PATIENTS AND METHODS. We selected 21 PKU patients with early diagnosis (age range: 9-25 years), on a Phe-restricted diet and supplemented with PKU formula. Inclusion criteria were: low erythrocyte DHA values, prolonged P100 wave latencies in VEP and/or presence of white matter hyperintensities on brain magnetic resonance imaging (MRI), and intellectual quotient > 80. All patients were treated with DHA (10 mg/kg/day) for 12 months. Assessment was conducted at baseline and after 12 months of treatment, and included biochemical parameters, brain MRI, VEP, ophthalmologic evaluation and neuropsychological tests. RESULTS AND CONCLUSION. All the patients normalized the DHA levels after supplementation. Improvement in the P100 wave latencies, and fine motor skills was significant. No significant improvement in the other explorations was evident after supplementation. Further investigations seem advisable to establish a cause-effect relationship between DHA treatment and the slight improvement observed in some neurological functions.

Published
2012

2. [Amino acids in cerebrospinal fluid and plasma: its usefulness in the study of neuropaediatric diseases].

Author

Jimenez E, Ormazabal A, Serrano M, Ortez-Gonzalez CI, Artuch R, Garcia-Cazorla A, and Campistol J

Subjects
Amino Acids, Neutral blood, Amino Acids, Neutral chemical synthesis, Blood-Brain Barrier, Chromatography, High Pressure Liquid, Female, Hartnup Disease diagnosis, Humans, Infant, Infant, Newborn, Male, Metabolism, Inborn Errors blood, Metabolism, Inborn Errors cerebrospinal fluid, Molecular Weight, Nervous System Malformations blood, Nervous System Malformations cerebrospinal fluid, Reference Values, Retrospective Studies, Spinal Puncture, Amino Acids blood, Amino Acids cerebrospinal fluid, Nervous System Diseases blood, Nervous System Diseases cerebrospinal fluid
Abstract

Introduction: Studying the amino acids in cerebrospinal fluid (CSF) is essential in the diagnosis of some neurological diseases and is an important aid in the diagnosis of others. No research has been published in the literature to prove the physiological relationship between the values of amino acids in CSF and plasma in the paediatric population., Aim: To define a set of ratios for amino acids in plasma and CSF in the paediatric population that can be used in daily clinical practice., Patients and Methods: The aminograms in plasma and CSF of 105 patients with ages between 0 and 12 months were collected and analysed retrospectively. Aminograms with amino acid values that are considered to be normal according to the reference values of our laboratory were included in the sample. The quantitative analysis of amino acids was performed using high-resolution liquid chromatography and statistical analysis with the software application SPSS 19.0., Results: The mean values, range and standard deviation of the amino acid concentrations in plasma and CSF, together with the CSF/plasma ratios, are reported. Significant correlations were found from 0.6 onwards between different neutral amino acids, above all in those with smaller molecular weights (Thr, Ser, Gly and Ala)., Conclusions: The existence of significant correlations between the different neutral amino acids supports the idea that they share the same transporters in the blood-brain barrier. Standardising the amino acid ratios will make it possible to increase sensitivity in the detection of pathological values in plasma and CSF, to further knowledge of the pathophysiology of neurological diseases and perhaps to describe new aminoacidopathies.

Published
2012

3. [Late-onset presentation of carbamoyl phosphate synthetase 1 deficiency in a 6-year-old boy].

Author

Gómez-López L, Artuch R, Vilaseca MA, Briones-Godino P, Finckh U, and Pineda M

Subjects
Adolescent, Adult, Carbamoyl-Phosphate Synthase (Ammonia) metabolism, Carbamoyl-Phosphate Synthase I Deficiency Disease therapy, Child, Female, Humans, Male, Young Adult, Carbamoyl-Phosphate Synthase I Deficiency Disease diagnosis, Carbamoyl-Phosphate Synthase I Deficiency Disease physiopathology
Published
2008

5. [Cerebral creatine transporter deficiency: an infradiagnosed neurometabolic disease].

Author

Campistol J, Arias-Dimas A, Poo P, Pineda M, Hoffman M, Vilaseca MA, Artuch R, and Ribes A

Subjects
Amino Acid Metabolism, Inborn Errors physiopathology, Brain anatomy & histology, Child, Preschool, Humans, Infant, Magnetic Resonance Imaging, Male, Membrane Transport Proteins genetics, Retrospective Studies, Amino Acid Metabolism, Inborn Errors diagnosis, Brain metabolism, Creatine deficiency, Membrane Transport Proteins metabolism
Abstract

Introduction: Brain creatine deficiencies are a group of inborn errors of metabolism recently recognized which are caused by arginine: glycine amidinotransferase (AGAT) deficiency, guanidinoacetate metiltransferase (GAMT) deficiency and defects in creatine transporter (CRTR). Although all of them are characterized by a brain creatine deficiency, clinical and biochemical features are different., Case Reports: We present a retrospective study about four patients of masculine sex affected of creatine transporter defects who were recently diagnosed in our centre. We describe the clinical presentation features, the different tests that we used in the diagnosis process (brain magnetic resonance spectroscopy, biochemical analysis of guanidinoacetate and creatine/creatinine ratio in urine), evolution aspects and the response to treatment. The most significative clinical feature was developmental delay mainly in expressive speech, they also presented epilepsy (three cases), autism (three cases), hypotonia (one case) and microcephalia (one case). Brain magnetic resonance spectroscopy showed a low (three cases) or an absence (one case) of creatine level. To confirm the defect we studied the creatine uptake in fibroblasts and molecular analysis of the SLC6A8/creatine transporter gene. Patients with creatine transporter deficiency are being treated with arginine, because a lack of response to creatine., Conclusion: Cerebral creatine transporter deficiency can present with different neurological symptoms but developmental and language delay and epilepsy are the most significative; diagnosis is easy and there are some therapeutical options.

Published
2007

6. [Orientation of mental retardation from neurometabolic diseases].

Author

García-Cazorla A, Pérez-Dueñas B, Pineda M, Artuch R, Vilaseca MA, and Campistol J

Subjects
Algorithms, Humans, Intellectual Disability diagnosis, Brain Diseases, Metabolic complications, Intellectual Disability etiology
Abstract

Introduction and Development: Isolated mental retardation is rarely caused by metabolic factors. The application of a standardised protocol offers low diagnostic performance. There is no international agreement about what type of metabolic examination must be applied in patients with unspecific mental retardation. Nevertheless, and although they are infrequent, there are a number of inborn errors of metabolism that can present in this way. Urea cycle disorders, different forms of homocystinuria, creatine transport deficiency, 4-hydroxybutyric aciduria, Sanfilippo disease, adenylosuccinate lyase deficit and certain extraordinarily rare congenital disorders of the glycosylation of proteins are some examples of them. It is important first to consider those for which treatment is available and that could be diagnosed genetically for possible family counselling., Conclusions: Rather than applying a standardised study protocol it is essential is to perform a thorough appraisal of the signs and symptoms associated with the mental retardation (psychiatric disorders, autistic traits, predominant compromise of language, signs of cerebellar dysfunction, epilepsy, dysmorphic traits), since in most disorders it is necessary to apply specific analyses, which are not included in conventional metabolic studies and are only available in certain reference centres.

Published
2006

7. [Diagnosis and treatment of brain creatine deficiency syndromes].

Author

Arias-Dimas A, Vilaseca MA, Artuch R, Ribes A, and Campistol J

Subjects
Amidinotransferases genetics, Amidinotransferases metabolism, Biological Transport, Brain Chemistry, Creatine chemistry, Guanidinoacetate N-Methyltransferase genetics, Guanidinoacetate N-Methyltransferase metabolism, Humans, Mutation, Syndrome, Amino Acid Metabolism, Inborn Errors diagnosis, Amino Acid Metabolism, Inborn Errors metabolism, Amino Acid Metabolism, Inborn Errors physiopathology, Amino Acid Metabolism, Inborn Errors therapy, Brain Diseases diagnosis, Brain Diseases metabolism, Brain Diseases physiopathology, Brain Diseases therapy, Creatine deficiency, Creatine metabolism
Abstract

Aim: To review the clinical, biochemical and genetic aspects of brain creatine deficiency syndromes, as well as the therapeutic options available., Development: Brain creatine deficiency syndrome has recently been described as a series of inborn errors of metabolism that affect the synthesis and transport of creatine. Three metabolic defects are known: two affect synthesis -guanidinoacetate methyltransferase (GAMT) and arginine:glycine amidinotransferase (AGAT)- and one affects the transport of creatine. Clinically, these patients can display mental retardation, language disorders, epilepsy, autistic behaviour, neurological impairment and movement disorders. After the clinical selection, the different defects can be identified by a biochemical study involving the analysis of metabolites in biological fluids (guanidinoacetate and creatine/ creatinine ratio). Before continuing with the molecular studies, it is important to confirm the deficiency of brain creatine by means of magnetic resonance imaging with spectroscopy. Diagnostic confirmation of AGAT and GAMT deficits is carried out by determining the enzymatic activity in fibroblasts or lymphoblasts, or the incorporation of creatine in the case of studies of transport defects. The study of mutations in AGAT, GAMT (autosomal recessive inheritance) and SLC6A8 (X-linked) genes completes the diagnosis., Conclusions: Brain creatine deficiency syndromes are mainly associated to mental retardation and autism. GAMT and AGAT deficiencies respond to treatment with creatine, whereas patients with transport defects do not respond to this therapy; new therapeutic approaches are therefore being evaluated for this disease.

Published
2006

8. [Inborn errors of neurotransmitters in neuropaediatrics].

Author

García-Cazorla A, Ormazábal A, Artuch R, Pérez-Dueñas B, López-Casas J, Fernández-Alvarez E, and Campistol J

Subjects
Adolescent, Age of Onset, Child, Child Behavior Disorders genetics, Child, Preschool, Epilepsy genetics, Female, Humans, Infant, Infant, Newborn, Intellectual Disability genetics, Male, Nerve Tissue Proteins deficiency, Nerve Tissue Proteins genetics, Nervous System Diseases cerebrospinal fluid, Nervous System Diseases diagnosis, Nervous System Diseases epidemiology, Nervous System Diseases metabolism, Nervous System Diseases therapy, Neurology, Pediatrics, Metabolism, Inborn Errors cerebrospinal fluid, Metabolism, Inborn Errors diagnosis, Metabolism, Inborn Errors epidemiology, Metabolism, Inborn Errors genetics, Metabolism, Inborn Errors metabolism, Metabolism, Inborn Errors therapy, Nervous System Diseases genetics, Neurotransmitter Agents metabolism
Abstract

Aims: The aim of this work is to describe the clinical, biochemical and genetic characteristics of neurotransmitter diseases at the paediatric age, together with possible forms of treatment. We also sought to determine the diagnostic methodology of these disorders (collection and analysis of samples)., Development: These diseases essentially consist of a deficit of biogenic amines and alterations in GABA metabolism (gamma-aminobutyric acid). Disorders affecting the neurotransmission of biogenic amines often present in the form of hypokinesia, trunk hypotonia with increased limb tone, oculogyric crises, ptosis, faulty temperature regulation or abnormal movements. Defects in GABA metabolism give rise to epileptic encephalopathies and unspecific mental retardation, sometimes associated to signs of cerebellar dysfunction, convulsions and alterations in neuroimaging studies. Overall incidence of these diseases is low but they are unquestionably under-diagnosed, since they cannot be detected by conventional studies in plasma and urine, and require extraction and directed analysis of cerebrospinal fluid (CSF) for their detection. Additionally, the CSF study must be carried out in specific standardised conditions. Segawa's disease, or dopa-responsive dystonia, responds extremely well to therapy, whereas the other entities respond in varying ways to the different therapeutic alternatives., Conclusions: It is important for the paediatrician to know about these entities as a group of treatable neurometabolic diseases. Moreover, their detection would allow prenatal diagnosis in the vast majority of cases.

Published
2005

9. [Pathogenetic mechanisms in phenylketonuria: disorders affecting the metabolism of neurotransmitters and the antioxidant system].

Author

Ormazábal A, Artuch R, Vilaseca MA, García-Cazorla A, and Campistol J

Subjects
Animals, Borohydrides therapeutic use, Diet Therapy, Humans, Phenylalanine blood, Synaptic Transmission physiology, Antioxidants metabolism, Neurotransmitter Agents metabolism, Phenylketonurias metabolism, Phenylketonurias pathology, Phenylketonurias physiopathology, Phenylketonurias therapy
Abstract

Aim: To review the clinical and biochemical changes in neurotransmission and antioxidant system in phenylketonuric patients under dietary treatment., Development: Phenylketonuria (PKU) is an inborn error of metabolism caused by decreased activity of the enzyme L-phenylalanine-4-mono-oxigenase that synthesizes tyrosine from phenylalanine. According to analytical data from PKU patients and to experimental studies in animal models, high phenylalanine values in plasma and tissues seem to be related with defective biosynthesis of neurotransmitter (mainly serotonin and dopamine) and impairment of antioxidant system. Despite dietary treatment, PKU patients usually present moderate hyperphenylalaninemia over the evolution of the disease that might cause clinical and biochemical abnormalities., Conclusions: Increased plasma phenylalanine concentrations and dietary treatment might be related with neurotransmitter and antioxidant system abnormalities in human phenylketonuria. These biochemical alterations might be involved in the physiopathology of PKU.

Published
2004

10. [Familiar chronic progressive external ophthalmoplegia of mitochondrial origin].

Author

Pineda M, Playán-Ariso A, Alcaine-Villarroya MJ, Vernet AM, Serra-Castanera A, Solano A, Vilaseca MA, Artuch R, López-Pérez M, Briones-Godino MP, Andreu A, and Montoya J

Subjects
Adolescent, Adult, Child, Child, Preschool, Disease Progression, Humans, Infant, Infant, Newborn, Muscle, Skeletal cytology, Muscle, Skeletal metabolism, Mutation, Ophthalmoplegia, Chronic Progressive External diagnosis, Sequence Deletion, DNA, Mitochondrial, Mitochondria, Muscle, Ophthalmoplegia, Chronic Progressive External physiopathology
Abstract

Introduction: The syndrome of chronic progressive external ophthalmoplegia (CPEO) is a mitochondrial disease characterized by ptosis and ophthalmoplegia has that has been associated to the presence of large deletion, single or multiple, in the mitochondrial DNA of skeletal muscle., Case Report: We report a familiar case of chronic progressive external ophthalmoplegia of maternal inheritance that began at birth, and developed with slow progression but with no multisystemic involvement. Non of the affected individuals had ragged-red fibers in skeletal muscle. Genetic analysis of mitochondrial DNA revealed the presence of a single deletion of 4,977 bp that encompasses the nucleotide positions 8,482 to 13,460, flanked by a direct repeat sequence., Conclusions: The amount of deleted mitochondrial DNA (15%) in this patient's muscle suggests, even if the percentage of the mutation is low, that this deletion is the molecular cause of the phenotypic presentation of this patient. This is one of the few cases described in the literature of CPEO maternally inherited.

Published
2004

11. [Mitochondrial encephalomyelitis, lactic acidosis and cerebrovascular accidents (MELAS) in pediatric age with the A3243G mutation in the tRNALeu(UUR) gene of mitochondrial DNA].

Author

Coelho-Miranda L, Playan A, Artuch R, Vilaseca MA, Colomer J, Briones P, Coll-Cantí J, Conill J, Sans A, López de Munain A, Solano A, Alcaine MJ, Montoya J, and Pineda M

Subjects
Child, Female, Humans, MELAS Syndrome diagnostic imaging, Magnetic Resonance Imaging, Male, Pedigree, Tomography, X-Ray Computed, DNA, Mitochondrial genetics, MELAS Syndrome genetics, Mutation genetics, RNA, Transfer, Leu genetics
Abstract

Objectives: To evaluate three patients with the mitochondrial encephalopathy, lactic acidosis and cerebrovascular accident syndrome (MELAS) diagnosed in childhood, with particular reference to the initial symptoms and clinical evolution during the first stage at a pediatric age, and to compare them with other studies on the subject., Patients and Methods: Two boys and a girl of 10, 11 and 13 years had tests on lactate, pyruvate and aminoacids in biological fluids under basal conditions and also functional tests and enzyme activity assay of the mitochondrial respiratory chain of a muscle biopsy. We also analysed the particular DNA mutations related to MELAS in different tissues from these patients and in lymphocytes from members of the mothers' families who could be tested., Results: The patients fulfilled the clinical criteria for the MELAS syndrome. Neuroimaging showed cerebrovascular accidents. Neurophysiological studies showed myopathy in one patient and neuroaxonal neuropathy in another. In two cases ophthalmological study showed retinitis pigmentaria and during cerebrovascular accidents transient phenomena of homonymous hemianopsia and cortical blindness were seen. In all patients muscle biopsy showed ragged red fibres and the biochemical study showed an enzyme deficit in the respiratory mitochondrial chain. On molecular genetic study of the mitochondrial DNA (mtDNA) there was a particular mutation A3243G on the tRNA(Leu) in all patients and some members of the mothers' families., Conclusions: In children with frequent episodes of migraine headaches, vomiting, refractory epilepsy and fatigue the presence of a mitochondrial disease should be suspected. On detection of mtDNA mutations MELAS may be diagnosed even without all the clinical criteria which characterise this syndrome.

Published
2000

12. [Aspects of neuropathy in mitochondrial diseases].

Author

Colomer J, Iturriaga C, Bestué M, Artuch R, Briones P, Montoya J, Vilaseca MA, and Pineda M

Subjects
Adolescent, Adult, Child, Electromyography methods, Female, Humans, Infant, Male, Median Nerve physiopathology, Mitochondrial Myopathies complications, Mitochondrial Myopathies diagnosis, Peripheral Nervous System Diseases complications, Peripheral Nervous System Diseases diagnosis, Retrospective Studies, Severity of Illness Index, Tibial Nerve physiopathology, Mitochondrial Myopathies classification, Peripheral Nervous System Diseases physiopathology
Abstract

Introduction: The existence of neuropathy has been described in mitochondrial disorders such as MELAS, MERRF, Leigh's syndrome, the Kearns-Saye syndrome, myoneurogastro-intestinal encephalopathy and progressive external ophthalmoplegia and constitutes a basic component of the NARP (neuropathy, ataxia and retinosis pigmentosa). However, the general prevalence of the neuropathy and its characteristics within the mitochondrial encephalopathies is not well understood., Objectives: To characterize the neuropathy and try to establish a genotype-phenotype correlation., Patients and Methods: Within study guidelines, we made a retrospective study of 27 patients, diagnosed as having mitochondrial disease, who had had neurophysiological studies (EMG-ENG). In those in whom neuropathy had been found we analysed the clinical, neurophysiological and genetic characteristics., Results: Neuropathy was present in 37% of the patients who had an average age of 13 years, ranging from 1 to 25 years. Syndromic diagnoses were: 7 encephalomyopathies, one MELAS, one MERRF and one NARP. Four of the patients were classified genetically. In all but two of the patients the neuropathy was asymptomatic. The biochemical alterations seen were: deficit of Complex 1 in 3 patients, of complex III in 3 patients, of complex IV in 2 and of pyruvate dehydrogenase in one patient. The type of neuropathy found was varied, with predominance of axonal-type motor neuropathy but no correlation with either biochemical defects or genetic diagnosis., Conclusions: Neuropathy is a common finding in mitochondrial disorders and probably is under-diagnosed. The axonal form predominates. We have not been able to establish correlations between phenotypes and genotypes.

Published
2000

13. [Antiepileptic drugs and carnitine].

Author

Campistol J, Chávez B, Vilaseca MA, and Artuch R

Subjects
Adolescent, Child, Child, Preschool, Female, Humans, Infant, Male, Anticonvulsants pharmacology, Anticonvulsants therapeutic use, Carnitine metabolism, Epilepsy drug therapy, Phenobarbital pharmacology, Phenobarbital therapeutic use, Valproic Acid pharmacology, Valproic Acid therapeutic use
Abstract

Introduction: Carnitine is an nonproteic nitrogenated compound acid present in all mammalian tissue and its principal activity is the long-chain fatty acid transport across the mitochondrial membrane for beta-oxidation., Development: Carnitine levels are maintained by absorption from dietary, endogenous synthesis in the liver and renal reabsorption. An alteration in concentration could be due to an abnormality in some of mentioned mechanism or to inherited errors in metabolism. A reduction in serum carnitine levels have been reported in patients with antiepileptic drugs (AED) use. While valproic acid as monotheraphy or in combination with other AED have been associated principally, some contradictory studies demonstrated that other AED specifically carbamazepine, phenytoin and phenobarbital, also cause carnitine deficiency in about 21% of the patients whom they are administered., Conclusion: This study was designed to investigated the relationship between the carnitine levels and the presence of symptoms in patients with seizures whom are treated with a AED alone or in combination.

Published
2000

14. [Risk factors in cerebrovascular disease in childhood].

Author

Cardo E, Pineda M, Vilaseca MA, Artuch R, and Campistol J

Subjects
Acute Disease, Adolescent, Anemia diagnosis, Brain blood supply, Brain diagnostic imaging, Brain pathology, Catchment Area, Health, Cerebral Infarction diagnosis, Cerebral Infarction epidemiology, Child, Child, Preschool, Cytomegalovirus Infections complications, Female, Humans, Infant, Magnetic Resonance Imaging, Male, Recurrence, Retrospective Studies, Risk Factors, Spain epidemiology, Tomography, X-Ray Computed, Cerebral Infarction etiology
Abstract

Introduction: The etiopathogenesis of cerebrovascular diseases in paediatrics is little known and very varied. Review of the literature gives little practical information about how to investigate a paediatric patient who presents with an acute cerebrovascular illness., Objectives: To identify the risk factors for cerebrovascular accidents in the paediatric age group in our setting and establish guidelines as to how best to act., Patients and Methods: A retrospective study was made of the patients admitted to the Hospital San Joan de Deú in Barcelona between January 1984 and December 1995 with the diagnosis of ischemic or hemorrhagic cerebral infarct., Results: A total of 141 cases were identified. Sixty specific causes (43.7%) were detected, of which cardiopathies made up the biggest etiological group. Risk factors for cerebrovascular disease were found in 66% of the cases. The risk factors most often identified were association with non-specific (22) and specific (varicella: 7 cases) viral infections; moderate dehydration (10); mild head injuries (10) and situations of stress (9). There were prethrombotic factors in 32.8% of the patients and anaemia in 29%. The high percentage of the anti Cytomegalovirus (67.1%) was of doubtful significance, and the percentage rose to 82.8% in the patients who died (29/35). In this study the role of hyperhomo-cysteinemia and resistance to C activated protein could not be assessed., Conclusions: In this study we identified the risk factors for cerebrovascular disease in the paediatric age group of our population. Stroke in the paediatric age group is probably due to a combination of several risk factors which will need structured protocols for identification. It is important to recognize these causes so as to plan strategies for action during the acute phase and to prevent recurrence, as are currently available to the adult population.

Published
2000

15. [Ubiquinone: metabolism and functions. Ubiquinone deficiency and its implication in mitochondrial encephalopathies. Treatment with ubiquinone].

Author

Artuch R, Colomé C, Vilaseca MA, Pineda M, and Campistol J

Subjects
Acetyl Coenzyme A metabolism, Antioxidants metabolism, Cholesterol biosynthesis, Coenzymes, Electron Transport, Energy Metabolism, Golgi Apparatus metabolism, Humans, Mevalonic Acid metabolism, Mitochondria metabolism, Mitochondrial Encephalomyopathies drug therapy, Oxidative Stress, Tyrosine metabolism, Ubiquinone deficiency, Ubiquinone physiology, Ubiquinone therapeutic use, Mitochondrial Encephalomyopathies metabolism, Ubiquinone analogs & derivatives
Abstract

Objective: Review of ubiquinone-10 metabolism and functions in humans, focusing its implication in the pathogenesis and physiopathology of mitochondrial encephalomyopathies., Development: Ubiquinone-10 is an endogenously synthesized lipid with a wide distribution in tissues. Tyrosine and acetil-CoA are involved in ubiquinone biosynthesis. This molecule has several biological functions in cells: it is a movil electron carrier in the mitochondrial respiratory chain and also acts as antioxidant. Owing to its implication in these functions, ubiquinone deficiency may cause important deletereous effects in tissues. Several authors reported ubiquinone deficient status in some physiological and pathological conditions. Mitochondrial encephalomyopathies may be related to a primary or secondary ubiquinone deficient status, or even to an altered function of ubiquinone in the respiratory chain. Moreover, some relevant aspects about ubiquinone therapy in mitochondrial disorders are reported., Conclusions: According to recent reports about ubiquinone implication in several diseases, its determination in different biological samples seems very useful to elucidate the physiopathological mechanisms involved and even the to start a therapy in cases with ubiquinone deficiency.

Published
1999

16. [Respiratory chain and pyruvate metabolism deficiencies in pediatric patients: evaluation of biochemical tests for selective screening].

Author

Artuch R, Pineda M, Vilaseca MA, Briones P, Ribes A, Colomer J, Vernet A, and Campistol J

Subjects
Alanine blood, Amino Acids urine, Carnitine blood, Child, Child, Preschool, Chromatography, Gas methods, Citric Acid Cycle physiology, DNA, Mitochondrial genetics, Exercise Test, Glucose metabolism, Humans, Ketone Bodies blood, Lactic Acid blood, Lymphocytes metabolism, Patient Selection, Pyruvate Dehydrogenase Complex Deficiency Disease cerebrospinal fluid, Electron Transport physiology, Pyruvate Dehydrogenase Complex Deficiency Disease blood
Abstract

Introduction: The correct selection of pediatric patients with clinical suspicion of mitochondrial diseases is the first step to achieve a definitive diagnosis., Material and Methods: The results of the initial biochemical tests obtained in 35 children diagnosed of respiratory chain or pyruvate metabolism defects were reviewed. The efficiency of basal determinations (lactate, pyruvate, ketone bodies, amino and organic acids and carnitine), cerebrospinal fluid (CSF) analysis, and dynamic tests (exercise, glucose loading and glucose oxidation by lymphocytes) was discussed., Results: Plasma lactate and alanine, and CSF metabolites were the most informative measurements in basal status. Urine organic acids were very useful to confirm the initial suspicion. Glucose loading was the most informative and reliable challenge test for pediatric population, while exercise test was especially useful for older children with fatigability or peripheral nervous system involvement., Conclusions: Glucose oxidation by lymphocytes might be applied when the other dynamic tests can not be performed or are not informative.

Published
1998

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