Barth syndrome

Barth syndrome

Barth Syndrome
Classification and external resources
ICD-10 E78
ICD-9-CM 759.89
OMIM 302060
DiseasesDB 29297
MeSH D056889

Barth syndrome (BTHS), also known as 3-Methylglutaconic aciduria type II, is an X-linked[1] genetic disorder. The disorder, which affects multiple body systems, is found exclusively in males. It is named after Dutch pediatric neurologist Peter Barth.

Contents

  • Presentation 1
  • Incidence 2
  • History 3
  • Cause 4
  • Barth Syndrome Foundation 5
  • See also 6
  • References 7
  • External links 8

Presentation

Though not always present, the cardinal characteristics of this multi-system disorder include: cardiomyopathy (dilated or hypertrophic, possibly with left ventricular noncompaction and/or endocardial fibroelastosis),[2][3] neutropenia (chronic, cyclic, or intermittent),[3] underdeveloped skeletal musculature and muscle weakness,[4] growth delay,[3] exercise intolerance, cardiolipin abnormalities,[5][6] and 3-methylglutaconic aciduria.[3]

It can be associated with stillbirth.[7]

Barth syndrome is manifested in a variety of ways at birth. A majority of BTHS patients are hypotonic at birth, show signs of cardiomyopathy within the first few months of life, and experience a deceleration in growth in the first year, despite adequate nutrition. As patients progress into childhood, their height and weight lag significantly behind other children. While most patients express normal intelligence, a high proportion of BTHS patients also express mild or moderate learning disabilities. Physical activity is also hindered due to diminished muscular development and muscular hypotonia. Many of these disorders are resolved after puberty. Growth accelerates during puberty, and many patients reach a normal adult height.[8]

Cardiomyopathy is one of the more severe manifestations of BTHS. The myocardium is dilated, reducing the systolic pump of the ventricles. For this reason, most BTHS patients have left myocardial thickening (hypertrophy). While cardiomyopathy can be life-threatening, it is commonly resolved or substantially improved in BTHS patients after puberty.[8]

Neutropenia is another deadly manifestation of BTHS. Neutropenia is a granulocyte disorder that results in a low production of neutrophils, the body’s primary defenders against bacterial infections. Surprisingly, however, BTHS patients have relatively fewer bacterial infections than other patients with neutropenia.[9]

Incidence

It has been documented in greater than 120 males to date (see Human Tafazzin (TAZ) Gene Mutation & Variation Database).[10] It is believed to be severely under-diagnosed[11] and may be estimated to occur in 1 out of approximately 300,000 births. Family members of the Barth Syndrome Foundation and its affiliates live in the US, Canada, the UK, Europe, Japan, South Africa, Kuwait, and Australia.

To date, Barth syndrome is found exclusively in males.

History

The syndrome was named for Dr. Peter Barth (pediatric neurologist) (1932-) in the Netherlands for his research and discovery in 1983.[4] He described a pedigree chart, showing that this is an inherited trait.

Cause

  • Barth Syndrome Foundation
  • Human Tafazzin Gene Mutation & Variation Database
  • Barth Syndrome Trust (United Kingdom & Europe)
  • Barth Syndrome Foundation of Canada
  • Barth Trust of South Africa
  • Clinical Mass Spectrometry Laboratory - Kennedy Krieger Institute
  • Barth Syndrome at NINDS
  • Barth Syndrome at National Organization for Rare Disorders (NORD)

External links

  1. ^ Claypool SM, Boontheung P, McCaffery JM, Loo JA, Koehler CM (December 2008). "The cardiolipin transacylase, tafazzin, associates with two distinct respiratory components providing insight into Barth syndrome". Mol. Biol. Cell 19 (12): 5143–55.  
  2. ^ Spencer CT, Bryant RM, Day J; et al. (August 2006). "Cardiac and clinical phenotype in Barth syndrome". Pediatrics 118 (2): e337–46.  
  3. ^ a b c d Kelley RI, Cheatham JP, Clark BJ; et al. (November 1991). "X-linked dilated cardiomyopathy with neutropenia, growth retardation, and 3-methylglutaconic aciduria". The Journal of Pediatrics 119 (5): 738–47.  
  4. ^ a b Barth PG, Scholte HR, Berden JA; et al. (December 1983). "An X-linked mitochondrial disease affecting cardiac muscle, skeletal muscle and neutrophil leucocytes". Journal of the Neurological Sciences 62 (1–3): 327–55.  
  5. ^ a b Schlame M, Kelley RI, Feigenbaum A; et al. (December 2003). "Phospholipid abnormalities in children with Barth syndrome". Journal of the American College of Cardiology 42 (11): 1994–9.  
  6. ^ a b Vreken P, Valianpour F, Nijtmans LG; et al. (December 2000). "Defective remodeling of cardiolipin and phosphatidylglycerol in Barth syndrome". Biochemical and Biophysical Research Communications 279 (2): 378–82.  
  7. ^ Steward CG, Newbury-Ecob RA, Hastings R; et al. (October 2010). "Barth syndrome: an X-linked cause of fetal cardiomyopathy and stillbirth". Prenat. Diagn. 30 (10): 970–6.  
  8. ^ a b Kelley RI, [cited 6 Dec 2011]. “Barth Syndrome - X-linked Cardiomyopathy and Neutropenia”. Department of Pediatrics, Johns Hopkins Medical Institutions. Available from: http://www.hopkinsmedicine.org/cmsl/Barth_Summary.html
  9. ^ Barth Syndrome Foundation, 28 Jun 2011. “Diagnosis of Barth Syndrome”. Available from: http://barthsyndrome.org/english/view.asp?x=1435&mid=424
  10. ^ a b http://barthsyndrome.org/english/View.asp?x=1357
  11. ^ Cantlay AM, Shokrollahi K, Allen JT, Lunt PW, Newbury-Ecob RA, Steward CG (September 1999). "Genetic analysis of the G4.5 gene in families with suspected Barth syndrome". The Journal of Pediatrics 135 (3): 311–5.  
  12. ^ Kulik W, van Lenthe H, Stet FS; et al. (February 2008). "Bloodspot assay using HPLC-tandem mass spectrometry for detection of Barth syndrome". Clinical Chemistry 54 (2): 371–8.  
  13. ^ Bione S, D'Adamo P, Maestrini E, Gedeon AK, Bolhuis PA, Toniolo D (April 1996). "A novel X-linked gene, G4.5. is responsible for Barth syndrome". Nature Genetics 12 (4): 385–9.  
  14. ^ Malhotra A, Edelman-Novemsky I, Xu Y; et al. (February 2009). "Role of calcium-independent phospholipase A2 in the pathogenesis of Barth syndrome". Proc. Natl. Acad. Sci. U.S.A. 106 (7): 2337–41.  

References

See also

The Barth Syndrome Foundation (BSF), together with its affiliates, are the only worldwide volunteer organizations dedicated to saving lives through education, advances in treatment, and finding a cure for Barth syndrome. The Barth Syndrome Foundation sponsors a competitive Research Grant Program and International Conferences for affected families, attending physicians, and scientists every two years.

Barth Syndrome Foundation

iPLA2-VIA has been suggested as a target for treatment.[14]

[10]) Gene Mutation & Variation Database).TAZ the long arm of the X chromosome. Mutations in tafazzin that cause Barth syndrome span many different categories: missense, nonsense, deletion, frameshift, splicing (see Human Tafazzin ([13]