Fabry's disease: Difference between revisions

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*'''Fabry disease''' (also known as '''alpha-galactosidase A deficiency, ceramide trihexosidase deficiency, angiokeratoma corporis diffusum, Anderson Fabry disease)''' is an [[X-linked recessive]] inherited [[Lysosomal storage disease|lysosomal storage disorder.]]
*'''Fabry disease''' (also known as '''alpha-galactosidase A deficiency, ceramide trihexosidase deficiency, angiokeratoma corporis diffusum, Anderson Fabry disease)''' is an [[X-linked recessive]] inherited [[Lysosomal storage disease|lysosomal storage disorder.]]
*X linked inherited disorders are transmitted  
*X linked inherited disorders are transmitted  
*It occurs as a result of the body's inability to make an enzyme [[alpha-galactosidase A.]] This enzyme encoded by the GLA gene located on the long arm of the X chromosome (q21-22) is in-turn responsible for breaking down a type of fat called [[Globotriaosylceramide 3-beta-N-acetylgalactosaminyltransferase|globotriaosylceramide]] (Gb3 or GL-3) into building blocks that are used by the cells of the body.
*It occurs as a result of the body's inability to make the enzyme [[alpha-galactosidase A.]] This enzyme encoded by the GLA gene located on the long arm of the X chromosome (q21-22) is in-turn responsible for breaking down a type of fat called [[Globotriaosylceramide 3-beta-N-acetylgalactosaminyltransferase|globotriaosylceramide]] (Gb3 or GL-3) into building blocks that are used by the cells of the body.
*The abnormal accumulation of this fat typically in three main organ systems namely the brain, heart and kidney is responsible for the varied manifestations associated with the disease
*The Glycosphingolipid storage initiates a cascade of events that begins with the dysfunction of basic metabolic processes on the cellular level followed by progression to cell death, inflammatory events, and progressive major organ dysfunction.[2]  
*Glycosphingolipid storage initiates a cascade of events that begins with the dysfunction of basic metabolic processes on the cellular level followed by progression to cell death, inflammatory events, and progressive major organ dysfunction.[2]
*Three main organ systems commonly affected include  the brain, heart and kidney.
*Prenatal and neonatal studies of the histopathology of Fabry disease have confirmed that pathogenic GL3 accumulations occur in the maternal region of the placenta, fetal tissues, and the fetal placenta regions of affected males. In male fetuses affected these accumulations have been found in renal, myenteric plexus, and liver cells.This prenatal storage suggests that the process of Fabry disease may lead to early childhood symptoms[3][4]
*Prenatal and neonatal studies of the histopathology of Fabry disease have confirmed that pathogenic GL3 accumulations occur in the maternal region of the placenta, fetal tissues, and the fetal placenta regions of affected males. In male fetuses affected these accumulations have been found in renal, myenteric plexus, and liver cells.This prenatal storage suggests that the process of Fabry disease may lead to early childhood symptoms[3][4]
*Fabry disease is a rare condition that can affect people regardless of their ethnic background. The prevalence for Fabry's disease is estimated to range from 0.27 to 1.69 per 100,000 in men, and 0.33 to 3.47 per 100,000 in women.  
*Fabry disease is a rare condition that can affect people regardless of their ethnic background. The prevalence for Fabry's disease is estimated to range from 0.27 to 1.69 per 100,000 in men, and 0.33 to 3.47 per 100,000 in women.  


* The disorder is termed X linked as the mutated gene is located only on the X chromosome. In males (who have only one X chromosome), one altered copy of the ''GLA'' gene in each cell is sufficient to cause the condition however since females have two copies of the X chromosome, one altered copy of the gene in each cell usually leads to less severe symptoms in females than in males and in some cases none at all.  
* The disorder is termed X linked as the mutated gene is located only on the X chromosome. In males (who have only one X chromosome), one altered copy of the ''GLA'' gene is sufficient to cause the condition however since females have two copies of the X chromosome, one altered copy of the gene in the cells usually leads to less severe symptoms in females than in males and in some cases none at all.


* The significance of Fabry disease stems from data that suggests significant medical problems in many females who have one altered copy of the ''GLA'' gene unlike other X linked diseases that present in women asymptomatically. These women may experience many of the classic features of the disorder, including nervous system abnormalities, kidney failure and heart disease. Other possible symptoms reported include high blood pressure, chronic pain and fatigue.
* The significance of Fabry's disease stems from data that suggests significant medical problems in many females who have only one altered copy of the ''GLA'' gene unlike other X linked diseases that generally have most women carriers remaining asymptomatic. The women carrying this mutation only on one X chromosome can experience many of the classic features of the disorder, including nervous system abnormalities, kidney failure and heart disease. Other possible symptoms reported include high blood pressure, chronic pain and fatigue.
*A small percentage of females who carry a mutation in one copy of the ''GLA'' gene never develop signs and symptoms of Fabry disease.[5]


*
*
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[2] Eng CM, Germain DP, Banikazemi M, et al. Fabry disease: guidelines for the evaluation and management of multi-organ system involvement. ''Genet Med'' 2006;8: 539–548.
[2] Eng CM, Germain DP, Banikazemi M, et al. Fabry disease: guidelines for the evaluation and management of multi-organ system involvement. ''Genet Med'' 2006;8: 539–548.
[3] Elleder M, Poupĕtová H, Kozich V . Fetal pathology in Fabry’s disease and mucopolysaccharidosis type I. ''Cesk Patol'' 1998;34:7–12.
[[fr:Maladie de Fabry]]
[[fr:Maladie de Fabry]]
[3] Elleder M, Poupĕtová H, Kozich V . Fetal pathology in Fabry’s disease and mucopolysaccharidosis type I. ''Cesk Patol'' 1998;34:7–12.
[4] Thurberg BL, Politei JM . Histologic abnormalities of placental tissues in Fabry disease: a case report and review of the literature. ''Hum Pathol'' 2012;43:610–614.


[4] Thurberg BL, Politei JM . Histologic abnormalities of placental tissues in Fabry disease: a case report and review of the literature. ''Hum Pathol'' 2012;43:610–614.
[5] Deegan PB, Baehner AF, Barba Romero MA, Hughes DA, Kampmann C, Beck M; European FOS Investigators. Natural history of Fabry disease in females in the Fabry Outcome Survey. J Med Genet. 2006 Apr;43(4):347-52. Epub 2005 Oct 14. Citation on PubMed or Free article on PubMed Central


[[Category:Genetic disorders]]
[[Category:Genetic disorders]]

Revision as of 21:08, 16 August 2020

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Editor-In-Chief: C. Michael Gibson, M.S., M.D. [1]; Associate Editor(s)-in-Chief: Aarti Narayan, M.B.B.S [2] Neepa Shah, M.B.B.S.[3]

Synonyms and keywords:

Overview

  • Fabry disease (also known as alpha-galactosidase A deficiency, ceramide trihexosidase deficiency, angiokeratoma corporis diffusum, Anderson Fabry disease) is an X-linked recessive inherited lysosomal storage disorder.
  • X linked inherited disorders are transmitted
  • It occurs as a result of the body's inability to make the enzyme alpha-galactosidase A. This enzyme encoded by the GLA gene located on the long arm of the X chromosome (q21-22) is in-turn responsible for breaking down a type of fat called globotriaosylceramide (Gb3 or GL-3) into building blocks that are used by the cells of the body.
  • The Glycosphingolipid storage initiates a cascade of events that begins with the dysfunction of basic metabolic processes on the cellular level followed by progression to cell death, inflammatory events, and progressive major organ dysfunction.[2]
  • Three main organ systems commonly affected include the brain, heart and kidney.
  • Prenatal and neonatal studies of the histopathology of Fabry disease have confirmed that pathogenic GL3 accumulations occur in the maternal region of the placenta, fetal tissues, and the fetal placenta regions of affected males. In male fetuses affected these accumulations have been found in renal, myenteric plexus, and liver cells.This prenatal storage suggests that the process of Fabry disease may lead to early childhood symptoms[3][4]
  • Fabry disease is a rare condition that can affect people regardless of their ethnic background. The prevalence for Fabry's disease is estimated to range from 0.27 to 1.69 per 100,000 in men, and 0.33 to 3.47 per 100,000 in women.
  • The disorder is termed X linked as the mutated gene is located only on the X chromosome. In males (who have only one X chromosome), one altered copy of the GLA gene is sufficient to cause the condition however since females have two copies of the X chromosome, one altered copy of the gene in the cells usually leads to less severe symptoms in females than in males and in some cases none at all.
  • The significance of Fabry's disease stems from data that suggests significant medical problems in many females who have only one altered copy of the GLA gene unlike other X linked diseases that generally have most women carriers remaining asymptomatic. The women carrying this mutation only on one X chromosome can experience many of the classic features of the disorder, including nervous system abnormalities, kidney failure and heart disease. Other possible symptoms reported include high blood pressure, chronic pain and fatigue.
  • A small percentage of females who carry a mutation in one copy of the GLA gene never develop signs and symptoms of Fabry disease.[5]

Historical Perspective

  • Anderson - Fabry disease was first described at the end of the 19th century by two dermatologists, Johannes Fabry in Germany and William Anderson in England.
  • In 1989 the origin of one of its many clinical names, "angiokeratoma corporis diffusum" was first identified by fabry as he described a clinical case of a13-year-old patient affected by nodular purpura and subsequent albuminuria. In that same year Anderson described the clinical case of a systemic disorder affecting a patient aged 39 with angiokeratomas, proteinuria, finger deformities, varicose veins and lymphedema.
  • The first ten years of the 20th century identified other similar cases.
  • In the year 1912, Madden illustrated the clinical case of a young Egyptian patient with diffuse angiokeratomas followed in 1915 by Fabry who reproposed this condition as "Angiokeratoma corporis naeviforme".
  • In 1947 Pompen speculated the origin of Anderson - Fabry disease as rather “familial” after the clinical case of two brothers dying of a similar disease was identified.
  • Anderson - Fabry Disease is a multi-systemic disorder caused by the build-up inside lysosomes of globotriaosylceramide or Gb3, the accumulated lipid material discovered in 1963 by Sweeley e Klionsky.In
  • In 1964 the clinical features of the main two phenotypes of the disease, the classical form and the atypical variants were described.
  • In the ‘70s the enzyme involved in the metabolism of Gb3 was found to be α-galactosidase A, whose functional deficit causes the disease. The enzyme is encoded by the GLA gene - described in 1974 - located in the long arm of the X chromosome (q21-22).
  • In the mid-1990s the many efforts to replace the lacking enzyme were successful and further led to the enzymatic replacement therapy for Anderson - Fabry disease. [1]

Classification

  • Classic form- Most commonly seen in males. It is a severe form of the disease.
  • Atypical variant. Milder, late-onset forms of the disorder are probably more common than the classic, severe form.
  • Based upon complications
    • Cardiac variant
    • Renal variant
    • Non-neuropathic form
    • Neuropathic form
      • Infantile form
      • Juvenile form

Pathophysiology

Causes

Differentiating Fabry's disease from other Diseases

Epidemiology and Demographics

Risk Factors

Screening

Natural History, Complications and Prognosis

Diagnosis

History and Symptoms | Physical Examination | Laboratory Findings | Electrocardiogram | CT | MRI | Echocardiography or Ultrasound | Other Imaging Findings | Other Diagnostic Studies

Treatment

Medical Therapy | Surgery | Primary Prevention | Secondary Prevention | Cost-Effectiveness of Therapy | Future or Investigation Therapies

Case Studies

Case #1

External links

References

[1] Caterina Bartolotta, Marcello Filogamo, Paolo Colomba, Carmela Zizzo, Giuseppe Albeggiani, Simone Scalia, Daniele Francofonte, Giuseppe Cammarata, Vincenzo Savica, Giovanni Duro, FP907 HISTORY OF ANDERSON - FABRY DISEASE, Nephrology Dialysis Transplantation, Volume 30, Issue suppl_3, 1 May 2015, Page iii379, https://doi.org/10.1093/ndt/gfv186.08


[2] Eng CM, Germain DP, Banikazemi M, et al. Fabry disease: guidelines for the evaluation and management of multi-organ system involvement. Genet Med 2006;8: 539–548.

[3] Elleder M, Poupĕtová H, Kozich V . Fetal pathology in Fabry’s disease and mucopolysaccharidosis type I. Cesk Patol 1998;34:7–12. [4] Thurberg BL, Politei JM . Histologic abnormalities of placental tissues in Fabry disease: a case report and review of the literature. Hum Pathol 2012;43:610–614.

[5] Deegan PB, Baehner AF, Barba Romero MA, Hughes DA, Kampmann C, Beck M; European FOS Investigators. Natural history of Fabry disease in females in the Fabry Outcome Survey. J Med Genet. 2006 Apr;43(4):347-52. Epub 2005 Oct 14. Citation on PubMed or Free article on PubMed Central