Atransferrinemia: Difference between revisions

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{{Infobox medical condition (new)
{{Infobox medical condition (new)
| name            = Atransferrinemia
| name            = Atransferrinemia
| synonyms        = '''familial atransferrinemia'''
| synonyms        = Familial atransferrinemia
| image          = autorecessive.svg
| image          = autorecessive.svg
| caption        = Atransferrinemia has an autosomal recessive pattern of [[inheritance]], meaning both copies of the gene in each cell are defective.
| caption        = Atransferrinemia follows an [[autosomal recessive]] pattern of [[inheritance]], meaning both copies of the [[gene]] in each cell are defective.
| pronounce      =
| field          = [[Hematology]]
| field          =  
| symptoms        = [[Anemia]], iron overload
| symptoms        = Anemia<ref name=gar/>
| complications  = [[Heart failure]], [[liver damage]], [[arthritis]]
| complications  =  
| causes          = Mutations in the [[transferrin]] (TF) gene
| onset          =
| diagnosis      = [[Transferrin]] levels, [[blood tests]], [[genetic testing]], [[physical examination]]
| duration        =
| treatment      = [[Apotransferrin therapy]]
| types          =
| medication      = None; iron therapy is contraindicated
| causes          = Mutations in the TF gene<ref name=orp/>
| prognosis      = Manageable with appropriate treatment
| risks          =
| frequency      = Extremely rare (fewer than 15 cases documented)
| diagnosis      = TF level, Physical exam<ref name=orp/>
| deaths          = Rare; often due to complications if untreated
| differential    =
| prevention      =
| treatment      = Oral iron therapy<ref name=iro/>
| medication      =  
| prognosis      =  
| frequency      =  
| deaths          =  
}}
}}


'''Atransferrinemia''', not to be confused with [[hypotransferrinemia]], is an [[autosome|autosomal]] [[dominance (genetics)|recessive]] [[metabolic disorder]] in which there is an absence of [[transferrin]], a [[Blood plasma|plasma]] [[protein]] that transports [[iron]] through the [[blood]].<ref name="orp">{{Cite web|url=http://www.orpha.net/consor4.01/www/cgi-bin/OC_Exp.php?lng=EN&Expert=1195|title=Orphanet: Congenital atransferrinemia|last=RESERVED|first=INSERM US14 -- ALL RIGHTS|website=www.orpha.net|language=en|access-date=2017-02-20}}</ref><ref>{{cite web|title=OMIM Entry - # 209300 - ATRANSFERRINEMIA|url=https://omim.org/entry/209300|website=omim.org|accessdate=19 February 2017|language=en-us}}</ref>
'''Atransferrinemia''' is a rare [[genetic disorder]] that falls under [[inborn errors of metal metabolism]]. It is caused by a deficiency or absence of [[transferrin]], a [[blood plasma|plasma]] protein responsible for transporting [[iron]] in the bloodstream. A lack of transferrin disrupts iron delivery to cells, leading to [[anemia]] and [[hemosiderosis]] (iron overload) in organs such as the [[heart]], [[liver]], and [[pancreas]].  
Atransferrinemia is characterized by [[anemia]] and [[hemosiderosis]] in the [[heart]] and [[liver]]. The iron damage to the heart can lead to [[heart failure]]. The anemia is typically [[microcytic anemia|microcytic]] and hypochromic (the [[red blood cell]]s are abnormally small and pale). Atransferrinemia was first described in 1961 and is extremely rare, with only ten documented cases worldwide.<ref name="NORD">{{cite web|title=Atransferrinemia|url=https://rarediseases.org/rare-diseases/atransferrinemia/|website=National Organization for Rare Disorders|accessdate=20 February 2017}}</ref>


==Symptoms and signs==
== Clinical Features ==
The presentation of this disorder entails [[anemia]], arthritis, hepatic anomalies, and recurrent [[infection]]s are clinical signs of the disease.<ref name="gar">{{Cite web|url=https://rarediseases.info.nih.gov/diseases/9595/atransferrinemia|title=Atransferrinemia {{!}} Genetic and Rare Diseases Information Center (GARD) – an NCATS Program|website=rarediseases.info.nih.gov|language=en|access-date=2017-02-20}}</ref> Iron overload occurs mainly in the liver, heart, [[pancreas]], [[thyroid]], and [[kidney]] <ref>{{cite book|last1=Barton|first1=James C.|last2=Edwards|first2=Corwin Q.|title=Hemochromatosis: Genetics, Pathophysiology, Diagnosis and Treatment|date=2001|publisher=Cambridge University Press|location=212|isbn=9780521593809|url=https://books.google.com/?id=kE6mmwm5d8UC&pg=PA212&dq=Atransferrinemia+iron+overload+liver,+heart,+pancreas,+thyroid,+kidney+and+joints,#v=onepage&q=Atransferrinemia%20iron%20overload%20liver%2C%20heart%2C%20pancreas%2C%20thyroid%2C%20kidney%20and%20joints%2C&f=false|language=en}}</ref>
The primary symptoms of atransferrinemia include:
* Severe [[microcytic anemia]] (small, pale [[red blood cells]])
* Iron deposition in organs, leading to:
** [[Heart failure]]
** [[Liver damage]]
** [[Arthritis]]
** [[Pancreatic dysfunction]]
* Recurrent [[infections]] due to weakened immune response.


==Genetics==
The anemia is both [[microcytic]] and [[hypochromic]], with red blood cells unable to function properly due to insufficient iron delivery.
[[File:Protein TF PDB 1a8e.png|thumb|70 px|left|Protein TF (from TF gene)]]
In terms of genetics of atransferrinemia researchers have identified [[mutation]]s in the TF gene as a probable cause of this genetic disorder in affected people.<ref name=orp/>


Transferrin is a serum transport protein that transports iron to the [[reticuloendothelial system]] for utilization and erythropoiesis, since there is no transferrin in atransferrinemia, serum free iron cannot reach reticuloendothelial cells and there is microcytic anemia.<ref>{{cite journal|last1=Bartnikas|first1=Thomas Benedict|title=Known and potential roles of transferrin in iron biology|journal=BioMetals|date=1 August 2012|volume=25|issue=4|pages=677–686|doi=10.1007/s10534-012-9520-3|pmc=3595092|language=en|pmid=22294463}}</ref><ref>{{Cite web|url=https://ghr.nlm.nih.gov/gene/TF#conditions|title=TF gene|last=Reference|first=Genetics Home|website=Genetics Home Reference|language=en|access-date=2017-02-20}}</ref><ref>{{cite web|title=OMIM Entry - * 190000 - TRANSFERRIN; TF|url=https://omim.org/entry/190000|website=omim.org|accessdate=20 February 2017|language=en-us}}</ref> Also, this excess iron deposits itself in the heart, liver and joints, and causes damage. Ferritin, the storage form of iron gets secreted more into the [[bloodstream]] so as to bind with the excessive free iron and hence serum [[ferritin]] levels rise in this condition{{medical citation needed|date=February 2017}}
== Pathophysiology ==
The [[transferrin]] protein, encoded by the [[TF gene]], is crucial for transporting iron to the [[reticuloendothelial system]] for [[erythropoiesis]]. In atransferrinemia, the absence of transferrin leads to:
* An inability to deliver iron for [[red blood cell]] production.
* Excess iron accumulating in the [[heart]], [[liver]], [[pancreas]], and [[joints]], causing tissue damage.
* Elevated serum [[ferritin]] levels as the body attempts to bind excess free iron.


==Diagnosis==
== Genetics ==
[[File:Iron deficiency anemia blood film.jpg|thumb|Anemia ]]
Atransferrinemia is inherited in an [[autosomal recessive]] manner, meaning a person must inherit defective copies of the [[TF gene]] from both parents. Mutations in the TF gene impair the production or function of transferrin. [[Genetic testing]] can confirm mutations in affected individuals.
The diagnosis of atransferrinemia is done via the following means to ascertain if an individual has the condition:<ref name=orp/>
*[[Blood]] test(for [[anemia]])
*TF level
*[[Physical exam]]
*[[Genetic test]]
===Types===
There are two forms of this condition that causes an absence of transferrin in the affected individual:<ref>{{cite book|last1=Marks|first1=Vincent|last2=Mesko|first2=Dusan|title=Differential Diagnosis by Laboratory Medicine: A Quick Reference for Physicians|date=2002|publisher=Springer Science & Business Media|isbn=9783540430575|page=633|url=https://books.google.com/?id=29RC011RyacC&pg=PA633&dq=Atransferrinemia+diagnosis#v=onepage&q=Atransferrinemia%20diagnosis&f=false|accessdate=20 February 2017|language=en}}</ref>
*Acquired atransferrinemia
*[[Congenital]] atransferrinemia


==Treatment==
== Diagnosis ==
[[File:Erythrozytenkonzentrat neu.jpg|thumb|50 px|RBC]]
Diagnosing atransferrinemia involves:
The treatment of atransferrinemia is apotransferrin. The missing protein without iron. Iron treatment is detrimental as it does not correct the anemia and is a cause of secondary hemochromatosis.<ref name="iro">{{cite book|last1=Hoffman|first1=Ronald|last2=Jr|first2=Edward J. Benz|last3=Silberstein|first3=Leslie E.|last4=Heslop|first4=Helen|last5=Weitz|first5=Jeffrey|last6=Anastasi|first6=John|title=Hematology: Diagnosis and Treatment|date=2012|publisher=Elsevier Health Sciences|isbn=978-1455740413|page=443|url=https://books.google.com/?id=M5fD7gZSDYMC&pg=PA442&dq=Atransferrinemia+diagnosis#v=onepage&q=Atransferrinemia%20diagnosis&f=false|language=en}}</ref>
* [[Blood tests]] showing severe anemia with microcytic and hypochromic characteristics.
* Measurement of transferrin levels, which are typically absent or very low.
* [[Genetic testing]] to identify mutations in the [[TF gene]].
* Imaging studies to assess iron overload in organs.


==See also==
[[Differential diagnosis]] includes other conditions that cause microcytic anemia, such as [[iron-deficiency anemia]] and [[thalassemia]].
*[[Transferrin]]


==References==
== Treatment ==
{{Reflist|32em}}
The cornerstone of treatment is:
* [[Apotransferrin]] therapy: This replaces the missing transferrin protein and restores proper iron transport.
* Management of iron overload:
** [[Iron chelation therapy]] may be required to prevent organ damage.
* Avoidance of iron therapy: Oral or intravenous iron supplements are contraindicated, as they exacerbate iron overload without correcting anemia.


==Further reading==
== Prognosis ==
*{{Cite book|url=https://books.google.com/?id=H85dwxYTKLwC&pg=PA1420&dq=Atransferrinemia+iron+overload#v=onepage&q=Atransferrinemia%20iron%20overload&f=false|title=Blood: Principles and Practice of Hematology|last=Handin|first=Robert I.|last2=Lux|first2=Samuel E.|last3=Stossel|first3=Thomas P.|date=2003-01-01|publisher=Lippincott Williams & Wilkins|isbn=9780781719933|language=en}}
With early diagnosis and appropriate treatment, the prognosis for atransferrinemia is favorable. Left untreated, complications such as [[cardiac failure]] and [[liver cirrhosis]] can be life-threatening.
*{{Cite book|url=https://books.google.com/?id=NzMKMPzbxZwC&pg=PA33&dq=Atransferrinemia+iron+,#v=onepage&q=Atransferrinemia%20iron%20,&f=false|title=Manual of Clinical Hematology|last=Mazza|first=Joseph|date=2002-01-01|publisher=Lippincott Williams & Wilkins|isbn=9780781729802|language=en}}
 
== External links ==
== Epidemiology ==
Atransferrinemia is an extremely rare condition, with fewer than 15 documented cases worldwide. Most cases are identified in consanguineous families due to the autosomal recessive inheritance pattern.
 
== Related Conditions ==
* [[Hypotransferrinemia]]
* [[Hemochromatosis]]
* [[Microcytic anemia]]
 
== See Also ==
* [[Iron metabolism]]
* [[Transferrin receptor]]
* [[Inborn errors of metabolism]]
 
== References ==
{{Reflist|30em}}
== Further Reading ==
* {{Cite book|title=Hematology: Diagnosis and Treatment|last=Hoffman|first=Ronald|publisher=Elsevier Health Sciences|year=2012|isbn=9781455740413|url=https://books.google.com/books?id=M5fD7gZSDYMC}}
* {{Cite book|title=Differential Diagnosis by Laboratory Medicine: A Quick Reference for Physicians|last=Marks|first=Vincent|publisher=Springer|year=2002|isbn=9783540430575}}
== External Links ==
{{Medical resources
{{Medical resources
| DiseasesDB      = 29538
| DiseasesDB      = 29538
| ICD10          = {{ICD10|E88.0}}
| ICD10          = {{ICD10|E88.0}}
| ICD9            = {{ICD9|273.8}}
| ICD9            = {{ICD9|273.8}}
| ICDO            =
| OMIM            = 209300
OMIM            = 209300
|  MedlinePlus    =
|  eMedicineSubj  =
|  eMedicineTopic  =
|  MeshID          = C538259
}}
}}
{{Scholia|topic}}
{{Inborn errors of metal metabolism}}
{{Inborn errors of metal metabolism}}
[[Category:Inborn errors of metal metabolism]]
[[Category:Inborn errors of metal metabolism]]
[[Category:Iron metabolism]]
[[Category:Iron metabolism]]
Line 81: Line 90:
[[Category:Rare diseases]]
[[Category:Rare diseases]]
[[Category:Red blood cell disorders]]
[[Category:Red blood cell disorders]]
{{dictionary-stub1}}
[[Category:Metabolic disorders]]

Revision as of 02:22, 7 January 2025

Atransferrinemia
Synonyms Familial atransferrinemia
Pronounce N/A
Field Hematology
Symptoms Anemia, iron overload
Complications Heart failure, liver damage, arthritis
Onset N/A
Duration N/A
Types N/A
Causes Mutations in the transferrin (TF) gene
Risks N/A
Diagnosis Transferrin levels, blood tests, genetic testing, physical examination
Differential diagnosis N/A
Prevention N/A
Treatment Apotransferrin therapy
Medication None; iron therapy is contraindicated
Prognosis Manageable with appropriate treatment
Frequency Extremely rare (fewer than 15 cases documented)
Deaths Rare; often due to complications if untreated


Atransferrinemia is a rare genetic disorder that falls under inborn errors of metal metabolism. It is caused by a deficiency or absence of transferrin, a plasma protein responsible for transporting iron in the bloodstream. A lack of transferrin disrupts iron delivery to cells, leading to anemia and hemosiderosis (iron overload) in organs such as the heart, liver, and pancreas.

Clinical Features

The primary symptoms of atransferrinemia include:

The anemia is both microcytic and hypochromic, with red blood cells unable to function properly due to insufficient iron delivery.

Pathophysiology

The transferrin protein, encoded by the TF gene, is crucial for transporting iron to the reticuloendothelial system for erythropoiesis. In atransferrinemia, the absence of transferrin leads to:

Genetics

Atransferrinemia is inherited in an autosomal recessive manner, meaning a person must inherit defective copies of the TF gene from both parents. Mutations in the TF gene impair the production or function of transferrin. Genetic testing can confirm mutations in affected individuals.

Diagnosis

Diagnosing atransferrinemia involves:

  • Blood tests showing severe anemia with microcytic and hypochromic characteristics.
  • Measurement of transferrin levels, which are typically absent or very low.
  • Genetic testing to identify mutations in the TF gene.
  • Imaging studies to assess iron overload in organs.

Differential diagnosis includes other conditions that cause microcytic anemia, such as iron-deficiency anemia and thalassemia.

Treatment

The cornerstone of treatment is:

  • Apotransferrin therapy: This replaces the missing transferrin protein and restores proper iron transport.
  • Management of iron overload:
  • Avoidance of iron therapy: Oral or intravenous iron supplements are contraindicated, as they exacerbate iron overload without correcting anemia.

Prognosis

With early diagnosis and appropriate treatment, the prognosis for atransferrinemia is favorable. Left untreated, complications such as cardiac failure and liver cirrhosis can be life-threatening.

Epidemiology

Atransferrinemia is an extremely rare condition, with fewer than 15 documented cases worldwide. Most cases are identified in consanguineous families due to the autosomal recessive inheritance pattern.

Related Conditions

See Also

References

Further Reading

  • Ronald,
 Hematology: Diagnosis and Treatment. online version, 
  
 Elsevier Health Sciences, 
 2012, 
  
  
 ISBN 9781455740413,
  • Vincent,
 Differential Diagnosis by Laboratory Medicine: A Quick Reference for Physicians, 
  
 Springer, 
 2002, 
  
  
 ISBN 9783540430575,

External Links

Inborn error of metal metabolism (E83, 275)
Transition metal
Electrolyte
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