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Heterotaxy, visceral, 4, autosomal(HTX4)

MedGen UID:: 462407
•Concept ID:: C3151057
•: Disease or Syndrome

Synonyms:	ACVR2B-Related Visceral Heterotaxy; HTX4

Gene (location): Gene(s) directly associated with this condition or phenotype.	ACVR2B (3p22.2)

Monarch Initiative:	MONDO:0013403
OMIM®:	613751

Definition

Heterotaxy ('heter' meaning 'other' and 'taxy' meaning 'arrangement'), or situs ambiguus, is a developmental condition characterized by randomization of the placement of visceral organs, including the heart, lungs, liver, spleen, and stomach. The organs are oriented randomly with respect to the left-right axis and with respect to one another (Srivastava, 1997). Heterotaxy is a clinically and genetically heterogeneous disorder. For a discussion of the genetic heterogeneity of visceral heterotaxy, see HTX1 (306955). [from OMIM]

Additional description

From MedlinePlus Genetics
Depending on the organs involved, signs and symptoms of heterotaxy syndrome can include a bluish appearance of the skin or lips (cyanosis, which is due to a shortage of oxygen), breathing difficulties, an increased risk of infections, and problems with digesting food. The most serious complications are generally caused by critical congenital heart disease, a group of complex heart defects that are present from birth. Biliary atresia, a problem with the bile ducts in the liver, can also cause severe health problems in infancy.

The severity of heterotaxy syndrome varies depending on the specific abnormalities involved. Some affected individuals have only mild health problems related to the condition. At the other end of the spectrum, heterotaxy syndrome can be life-threatening in infancy or childhood, even with treatment.

Heterotaxy syndrome can alter the structure of the heart, including the attachment of the large blood vessels that carry blood to and from the rest of the body. It can also affect the structure of the lungs, such as the number of lobes in each lung and the length of the tubes (called bronchi) that lead from the windpipe to the lungs. In the abdomen, the condition can cause a person to have no spleen (asplenia) or multiple small, poorly functioning spleens (polysplenia). The liver may lie across the middle of the body instead of being in its normal position to the right of the stomach. Some affected individuals also have intestinal malrotation, which is an abnormal twisting of the intestines that occurs in the early stages of development before birth.

In the normal body, most of the organs in the chest and abdomen have a particular location on the right or left side. For example, the heart, spleen, and pancreas are on the left side of the body, and most of the liver is on the right. This normal arrangement of the organs is known as "situs solitus." Rarely, the orientation of the internal organs is completely flipped from right to left, a situation known as "situs inversus." This mirror-image orientation usually does not cause any health problems, unless it occurs as part of a syndrome affecting other parts of the body. Heterotaxy syndrome is an arrangement of internal organs somewhere between situs solitus and situs inversus; this condition is also known as "situs ambiguus." Unlike situs inversus, the abnormal arrangement of organs in heterotaxy syndrome often causes serious health problems.

Heterotaxy syndrome is a condition in which the internal organs are abnormally arranged in the chest and abdomen. The term "heterotaxy" is from the Greek words "heteros," meaning "other than," and "taxis," meaning "arrangement." Individuals with this condition have complex birth defects affecting the heart, lungs, liver, spleen, intestines, and other organs. https://medlineplus.gov/genetics/condition/heterotaxy-syndrome

Clinical features

From HPO

Dextrocardia

MedGen UID:: 4255
•Concept ID:: C0011813
•: Congenital Abnormality

The heart is located in the right hand sided hemithorax. That is, there is a left-right reversal (or "mirror reflection") of the anatomical location of the heart in which the heart is locate on the right side instead of the left.

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Ventricular septal defect

MedGen UID:: 42366
•Concept ID:: C0018818
•: Congenital Abnormality

A hole between the two bottom chambers (ventricles) of the heart. The defect is centered around the most superior aspect of the ventricular septum.

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Right aortic arch

MedGen UID:: 48474
•Concept ID:: C0035615
•: Congenital Abnormality

Aorta descends on right instead of on the left.

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Transposition of the great arteries

MedGen UID:: 21245
•Concept ID:: C0040761
•: Congenital Abnormality

Critical congenital heart disease (CCHD) is a term that refers to a group of serious heart defects that are present from birth. These abnormalities result from problems with the formation of one or more parts of the heart during the early stages of embryonic development. CCHD prevents the heart from pumping blood effectively or reduces the amount of oxygen in the blood. As a result, organs and tissues throughout the body do not receive enough oxygen, which can lead to organ damage and life-threatening complications. Individuals with CCHD usually require surgery soon after birth.\n\nAlthough babies with CCHD may appear healthy for the first few hours or days of life, signs and symptoms soon become apparent. These can include an abnormal heart sound during a heartbeat (heart murmur), rapid breathing (tachypnea), low blood pressure (hypotension), low levels of oxygen in the blood (hypoxemia), and a blue or purple tint to the skin caused by a shortage of oxygen (cyanosis). If untreated, CCHD can lead to shock, coma, and death. However, most people with CCHD now survive past infancy due to improvements in early detection, diagnosis, and treatment.\n\nSome people with treated CCHD have few related health problems later in life. However, long-term effects of CCHD can include delayed development and reduced stamina during exercise. Adults with these heart defects have an increased risk of abnormal heart rhythms, heart failure, sudden cardiac arrest, stroke, and premature death.\n\nEach of the heart defects associated with CCHD affects the flow of blood into, out of, or through the heart. Some of the heart defects involve structures within the heart itself, such as the two lower chambers of the heart (the ventricles) or the valves that control blood flow through the heart. Others affect the structure of the large blood vessels leading into and out of the heart (including the aorta and pulmonary artery). Still others involve a combination of these structural abnormalities.\n\nPeople with CCHD have one or more specific heart defects. The heart defects classified as CCHD include coarctation of the aorta, double-outlet right ventricle, D-transposition of the great arteries, Ebstein anomaly, hypoplastic left heart syndrome, interrupted aortic arch, pulmonary atresia with intact septum, single ventricle, total anomalous pulmonary venous connection, tetralogy of Fallot, tricuspid atresia, and truncus arteriosus.

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Complete atrioventricular canal

MedGen UID:: 65132
•Concept ID:: C0221215
•: Congenital Abnormality

A congenital heart defect characterized by a specific combination of heart defects with a common atrioventricular valve, primum atrial septal defect and inlet ventricular septal defect.

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Pulmonary artery atresia

MedGen UID:: 82723
•Concept ID:: C0265908
•: Congenital Abnormality

A congenital anomaly with a narrowing or complete absence of the opening between the right ventricle and the pulmonary artery.

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Bilateral superior vena cava

MedGen UID:: 576402
•Concept ID:: C0344659
•: Congenital Abnormality

The presence of a left and a right superior vena cava.

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Common atrium

MedGen UID:: 488886
•Concept ID:: C0392482
•: Congenital Abnormality

Complete absence of the interatrial septum with common atrioventricular valve and two atrioventricular connections.

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Atrioventricular canal defect

MedGen UID:: 235591
•Concept ID:: C1389016
•: Anatomical Abnormality

A defect of the atrioventricular septum of the heart.

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Dextrotransposition of the great arteries

MedGen UID:: 758887
•Concept ID:: C3531771
•: Congenital Abnormality

A type of transposition of the great arteries (TGA) in which aorta is in front of and primarily to the right of the pulmonary artery. This is the most common kind of TGA.

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Interrupted inferior vena cava with azygous continuation

MedGen UID:: 868827
•Concept ID:: C4023237
•: Congenital Abnormality

Interrupted inferior vena cava with azygous continuation is the result of connection failure between the right subcardinal vein and the right vitelline vein. Consequently, venous blood from the caudal part of the body reaches the heart via the azygous vein and superior vena cava.

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Congenital total pulmonary venous return anomaly

MedGen UID:: 1648157
•Concept ID:: C4551903
•: Disease or Syndrome

Total anomalous pulmonary venous return (TAPVR) is a cyanotic form of congenital heart defect in which the pulmonary veins fail to enter the left atrium and instead drain into the right atrium or one of the venous tributaries (summary by Bleyl et al., 1994).

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Midline liver

MedGen UID:: 766591
•Concept ID:: C3553677
•: Anatomical Abnormality

Position of the liver across the middle of the body instead of being in its normal position to the right of the stomach.

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Ectopia of the spleen

MedGen UID:: 451027
•Concept ID:: C0266632
•: Congenital Abnormality

An abnormal (non-anatomic) location of the spleen.

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Polysplenia

MedGen UID:: 383959
•Concept ID:: C1856659
•: Congenital Abnormality

Polysplenia is a congenital disease manifested by multiple small accessory spleens.

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Abnormality of the cardiovascular system
Abnormality of the digestive system
- Midline liver
Abnormality of the immune system
- Ectopia of the spleen
- Polysplenia

Recent clinical studies

Etiology

Placental mesenchymal dysplasia and fetal renal-hepatic-pancreatic dysplasia: androgenetic-biparental mosaicism and pathogenesis of an autosomal recessive disorder.

Kapur RP, Cole B, Zhang M, Lin J, Fligner CL
Pediatr Dev Pathol 2013 May-Jun;16(3):191-200. Epub 2013 Feb 25 doi: 10.2350/12-12-1281-OA.1. PMID: 23438674

Molecular genetics of congenital heart disease.

Gelb BD
Curr Opin Cardiol 1997 May;12(3):321-8. doi: 10.1097/00001573-199705000-00014. PMID: 9243090

See all (2)

Diagnosis

Discrepancy in blood pressure between the left and right arms - importance of clinical diagnosis and role of radiological imaging.

Kuan PX, Tan PW, Jobli AT, Norsila AR
Med J Malaysia 2016 Aug;71(4):206-208. PMID: 27770122

A new syndrome with noncompaction cardiomyopathy, bradycardia, pulmonary stenosis, atrial septal defect and heterotaxy with suggestive linkage to chromosome 6p.

Wessels MW, De Graaf BM, Cohen-Overbeek TE, Spitaels SE, de Groot-de Laat LE, Ten Cate FJ, Frohn-Mulder IF, de Krijger R, Bartelings MM, Essed N, Wladimiroff JW, Niermeijer MF, Heutink P, Oostra BA, Dooijes D, Bertoli-Avella AM, Willems PJ
Hum Genet 2008 Jan;122(6):595-603. Epub 2007 Oct 16 doi: 10.1007/s00439-007-0436-x. PMID: 17938964

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Prognosis

Genetic architecture of laterality defects revealed by whole exome sequencing.

Li AH, Hanchard NA, Azamian M, D'Alessandro LCA, Coban-Akdemir Z, Lopez KN, Hall NJ, Dickerson H, Nicosia A, Fernbach S, Boone PM, Gambin T, Karaca E, Gu S, Yuan B, Jhangiani SN, Doddapaneni H, Hu J, Dinh H, Jayaseelan J, Muzny D, Lalani S, Towbin J, Penny D, Fraser C, Martin J, Lupski JR, Gibbs RA, Boerwinkle E, Ware SM, Belmont JW
Eur J Hum Genet 2019 Apr;27(4):563-573. Epub 2019 Jan 8 doi: 10.1038/s41431-018-0307-z. PMID: 30622330 Free PMC Article

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