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3-Methylcrotonyl-CoA carboxylase deficiency in an infant with cardiomyopathy, in her brother with developmental delay and in their asymptomatic father (2000)

Visser, Gepke ; Suormala, Terttu ; Smit, G. Peter A. ; [et al.]

Springer

European journal of pediatrics 159 (2000), S. 901-904

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ISSN: 1432-1076

Keywords: Key words Cardiomyopathy ; Carnitine deficiency ; Inborn error of leucine metabolism ; Isolated 3-methylcrotonyl-CoA carboxylase deficiency ; Abbreviations3-HIVA 3-hydroxyisovalerate ; MCC 3-methylcrotonyl-CoA carboxylase ; 3-MCG 3-methylcrotonylglycine ; PC pyruvate carboxylase ; PCC propionyl-CoA carboxylase

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Abstract Three affected members of one family, each with a different clinical presentation of isolated biotin-resistant 3-methylcrotonyl-CoA carboxylase (MCC) deficiency are described. The index patient presented at 7 weeks of age with feeding difficulties, sweating and tachypnoea. Echocardiography showed a severely dilated left ventricle with minimal contractility. MCC deficiency was suspected on the basis of elevated urinary excretion of 3-hydroxyisovalerate and 3-methylcrotonylglycine. Deficiency of MCC activity was found in lymphocytes and fibroblasts (ca. 2% of mean normal). Serum carnitine was low (free 10 μmol/l). Some other possible causes of cardiomyopathy were excluded. Cardiomyopathy was not improved by carnitine therapy. The healthy father and a developmentally delayed brother also had MCC deficiency. Both also had decreased serum carnitine concentrations, but without cardiac involvement. Dilatative cardiomyopathy as predominant symptom in isolated MCC deficiency has not been described before, although severe carnitine deficiency is a common finding in MCC deficiency. It is not clear whether this is a coincidental association. Conclusion In order to understand the phenotypic spectrum of this rare disorder, cardiac evaluation should be made in patients with 3-methylcrotonyl-CoA carboxylase deficiency. Biochemical and clinical investigations have also to be performed in their parents and siblings. In addition, 3-methylcrotonyl-CoA carboxylase deficiency should be included in the differential diagnosis of dilatative cardiomyopathy.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/PL00008366

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Glycogen storage disease type Ia: recent experience with mutation analysis, a summary of mutations reported in the literature and a newly developed diagnostic flowchart (2000)

Rake, Jan Peter ; ten Berge, Annelies M. ; Visser, Gepke ; [et al.]

Springer

European journal of pediatrics 159 (2000), S. 322-330

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ISSN: 1432-1076

Keywords: Key words Glycogen storage disease type Ia ; Glucose-6-phosphatase ; Mutations ; Diagnosis ; Prenatal diagnosis

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Abstract We studied the glucose-6-phosphatase (G6Pase) gene of 30 unrelated glycogen storage disease type Ia (GSD Ia) patients using single strand conformational polymorphism (SSCP) prior to automated sequencing of exons revealing an aberrant SSCP pattern. In all patients we could identify mutations on both alleles of the G6Pase gene, indicating that this method is a reliable procedure. A total of 14 different mutations were identified. R83C (16/60), 158delC (12/60), Q347X (7/60), R170X (6/60) and ΔF327 (4/60) were found most frequently. Nine other mutations accounted for the other 15 mutant alleles. Two DNA-based prenatal diagnoses were performed successfully. At present, 56 mutations in the G6Pase gene have been reported in 300 unrelated GSD Ia patients and an overview of these mutations is presented. Evidence for a clear genotype-phenotype correlation could be established neither from our data nor from those in the literature. With increased knowledge about the genetic basis of GSD Ia and GSD Ib and the high detection rate of mutations, it is our opinion that the diagnoses GSD Ia and GSD Ib can usually be based on clinical and biochemical abnormalities combined with mutation analysis instead of enzyme assays in liver tissue obtained by biopsy. A newly developed flowchart for the diagnosis of GSD I is presented. Conclusion Increased knowledge of the genetic basis of glycogen storage disease type I provides a DNA-based diagnosis, prenatal DNA-based diagnosis in chorionic villus samples and carrier detection.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/s004310051281

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