Entry - 224700 - EBSTEIN ANOMALY - OMIM

 
ICD+
224700

EBSTEIN ANOMALY


Clinical Synopsis
 

Cardiac
- Ebstein anomaly
- Congenital heart defect
- Downward placement of tricuspid valve
- Partial atrially displaced right ventricle
- Deformed tricuspid leaflets
- Atrial septal defect
- Deformed mitral valve
- Right bundle branch block
- Preexcitation
- Increased risk of sudden cardiac death
- Atrial fibrillation
- Atrial standstill
Inheritance
- Autosomal recessive
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TEXT

Description

Ebstein anomaly is characterized by downward displacement of variable severity of the tricuspid valve into the right ventricle. The valve leaflets may be dysplastic, and a variable portion of the proximal part of the right ventricle is in continuity with the right atrium ('atrialized'), because of the abnormally positioned tricuspid valve. The severity of this defect includes a spectrum ranging from severe disturbance in fetal and neonatal life to virtually asymptomatic survival to adult life. Associated extracardiac anomalies in the setting of chromosomal or mendelian disorders occur in about 20% of patients with Ebstein anomaly. Nonsyndromic Ebstein anomaly can occur as a sporadic or a familial defect (summary by Digilio et al., 2011).


Clinical Features

Gouffault et al. (1960) found Ebstein malformation in 1 sib and a comparable deformity of the mitral valve in a sister. The same combination of Ebstein anomaly in 1 sib and comparable mitral anomaly in another was apparently present in the family reported by Yamauchi and Cayler (1964).

Gueron et al. (1966) described a brother and sister with Ebstein anomaly, a congenital malformation of the heart that consists of downward placement of the tricuspid valve such that part of the right ventricle becomes incorporated into the pretricuspid chamber. Associated deformity of the tricuspid leaflets and defect of the atrial septum are frequent.

Donegan et al. (1968) found Ebstein anomaly in a 6-year-old boy and his maternal uncle.

The Ebstein anomaly predisposes to right bundle branch block, preexcitation, and an increased risk of sudden cardiac death. Atrial fibrillation occurs in about one-third of patients with Ebstein anomaly. Pierard et al. (1985) reported atrial standstill in father and son with Ebstein anomaly.

McIntosh et al. (1992) diagnosed severe Ebstein anomaly prenatally in 2 sisters born of Sri Lankan parents who were first cousins once removed.

Digilio et al. (2011) studied 44 consecutive patients with Ebstein anomaly presenting to 2 pediatric cardiology centers. In 12 (27%) of the 44 patients, Ebstein anomaly was part of a syndrome, and 7 of those patients were diagnosed with distinct disorders, including CHARGE syndrome (214800) in 2, and VACTERL association (see 192350), Noonan syndrome (163950), Kabuki syndrome (147920), Holt-Oram syndrome (142900), and Cornelia de Lange syndrome (see 122470) in 1 each. Of the 32 patients with nonsyndromic Ebstein anomaly, 10 (31%) had additional congenital heart defects (CHDs), including 7 atrial septal defects, 2 ventricular septal defects, 2 pulmonary stenoses, 1 dextrocardia, 1 aortic coarctation, and 1 patent ductus arteriosus; 1 of the patients with ASD also had a Wolff-Parkinson-White cardiac conduction anomaly (WPW; see 194200). The remaining 22 patients had Ebstein defect alone; 1 of these patients also had WPW. Familial recurrence of CHD was seen in 1 family, in which a mother with nonsyndromic Ebstein anomaly had a son with persistence of left ventricular noncompaction (see 604169).


Cytogenetics

In 2 unrelated patients with Ebstein anomaly and other malformations, de Lonlay-Debeney et al. (1998) described 2 distinct rearrangements of the long arm of chromosome 11.

In a study of 44 consecutive patients with Ebstein anomaly, Digilio et al. (2011) performed standard chromosome analysis and array CGH in the 12 patients in whom the anomaly was part of a syndrome, and identified chromosomal anomalies in 3 of them: a 1p36 deletion (see 607872) in association with an Xpter-Xp22.3 duplication (see 300830), an 8p23.1 deletion, and a deletion of 18q21.3-qter (see 601808).


Molecular Genetics

In 28 patients with nonsyndromic Ebstein anomaly, Digilio et al. (2011) screened the candidate genes GATA4 (600576) and NKX2.5 (600584), but did not find any mutations.


Animal Model

Canine tricuspid valve malformation (CTVM) is morphologically similar to Ebstein anomaly. Andelfinger et al. (2003) noted that familial occurrence of CTVM had been described, although most cases appeared to be sporadic. They studied 3 purebred Labrador retriever kindreds enriched for CTVM. Pedigree analysis indicated that CTVM segregated as an autosomal dominant trait with reduced penetrance. Genomewide linkage analysis in 1 kindred identified a CTVM susceptibility locus on chromosome 9 with a maximum multipoint lod score of 3.33. The 2 additional kindreds showed a conserved disease haplotype, indicating a founder effect in apparently unrelated Labrador retriever kindreds. The critical region of canine chromosome 9 contained a syntenic group of genes that has its human counterpart on 17q12-q23. Andelfinger et al. (2003) pointed to several possible candidate genes on 17q: TBX2 (600747) on 17q23, which plays a pivotal role in chamber differentiation and atrioventricular canal formation; TOB1 (605523) on 17q21, which is an important transmitter in the ERBB2 (164870) cascade involved in cardiac muscle and valve formation; and FZD2 (600667) on 17q21.1, which is a receptor in the Wnt-dishevelled signal transduction cascade expressed during cardiac morphogenesis.


REFERENCES

  1. Andelfinger, G., Wright, K. N., Lee, H. S., Siemens, L. M., Benson, D. W. Canine tricuspid valve malformation, a model of human Ebstein anomaly, maps to dog chromosome 9. J. Med. Genet. 40: 320-324, 2003. [PubMed: 12746392, related citations] [Full Text]

  2. de Lonlay-Debeney, P., de Blois, M.-C., Bonnet, D., Amiel, J., Abadie, V., Picq, M., Lyonnet, S., Sidi, D., Munnich, A., Vekemans, M., Cormier-Daire, V. Ebstein anomaly associated with rearrangements of chromosomal region 11q. Am. J. Med. Genet. 80: 157-159, 1998. [PubMed: 9805133, related citations] [Full Text]

  3. Digilio, M. C., Bernardini, L., Lepri, F., Giuffrida, M. G., Guida, V., Baban, A., Versacci, P., Capolino, R., Torres, B., De Luca, A., Novelli, A., Marino, B., Dallapiccola, B. Ebstein anomaly: genetic heterogeneity and association with microdeletions 1p36 and 8p23.1. Am. J. Med. Genet. 155A: 2196-2202, 2011. [PubMed: 21815254, related citations] [Full Text]

  4. Donegan, C. C., Jr., Moore, M. M., Wiley, T. M., Jr., Hernandez, F. A., Green, J. R., Jr., Schiebler, G. L. Familial Ebstein's anomaly of the tricuspid valve. Am. Heart J. 75: 375-379, 1968. [PubMed: 5638476, related citations] [Full Text]

  5. Gouffault, J., Le Damany, L., Lenegre, J. Un type particulier d'anomalie congenitale de la valve mitrale. Arch. Mal. Coeur 53: 1175-1181, 1960. [PubMed: 13707483, related citations]

  6. Gueron, M., Hirsch, M., Stern, J., Cohen, W., Levy, M. J. Familial Ebstein's anomaly with emphasis on the surgical treatment. Am. J. Cardiol. 18: 105-111, 1966. [PubMed: 5938901, related citations] [Full Text]

  7. McIntosh, N., Chitayat, D., Bardanis, M., Fouron, J.-C. Ebstein anomaly: report of a familial occurrence and prenatal diagnosis. Am. J. Med. Genet. 42: 307-309, 1992. [PubMed: 1536167, related citations] [Full Text]

  8. Pierard, L. A., Henrard, L., Demoulin, J.-C. Persistent atrial standstill in familial Ebstein's anomaly. Brit. Heart J. 53: 594-597, 1985. [PubMed: 4005080, related citations] [Full Text]

  9. Yamauchi, T., Cayler, G. G. Ebstein's anomaly in the neonate: a clinical study of three cases observed from birth through infancy. Am. J. Dis. Child. 107: 165-172, 1964. [PubMed: 14091822, related citations]


Contributors:
Marla J. F. O'Neill - updated : 9/30/2011
Victor A. McKusick - updated : 11/6/2003
Victor A. McKusick - updated : 12/4/1998
Creation Date:
Victor A. McKusick : 6/3/1986
Edit History:
carol : 07/08/2022
carol : 10/03/2011
terry : 9/30/2011
tkritzer : 11/11/2003
tkritzer : 11/7/2003
terry : 11/6/2003
carol : 3/15/1999
carol : 12/9/1998
terry : 12/4/1998
mimadm : 2/19/1994
supermim : 3/16/1992
carol : 2/13/1992
supermim : 3/20/1990
ddp : 10/26/1989
marie : 3/25/1988

224700

EBSTEIN ANOMALY


SNOMEDCT: 204357006;   ICD10CM: Q22.5;   ICD9CM: 746.2;   ORPHA: 1880;   DO: 14289;  



TEXT

Description

Ebstein anomaly is characterized by downward displacement of variable severity of the tricuspid valve into the right ventricle. The valve leaflets may be dysplastic, and a variable portion of the proximal part of the right ventricle is in continuity with the right atrium ('atrialized'), because of the abnormally positioned tricuspid valve. The severity of this defect includes a spectrum ranging from severe disturbance in fetal and neonatal life to virtually asymptomatic survival to adult life. Associated extracardiac anomalies in the setting of chromosomal or mendelian disorders occur in about 20% of patients with Ebstein anomaly. Nonsyndromic Ebstein anomaly can occur as a sporadic or a familial defect (summary by Digilio et al., 2011).


Clinical Features

Gouffault et al. (1960) found Ebstein malformation in 1 sib and a comparable deformity of the mitral valve in a sister. The same combination of Ebstein anomaly in 1 sib and comparable mitral anomaly in another was apparently present in the family reported by Yamauchi and Cayler (1964).

Gueron et al. (1966) described a brother and sister with Ebstein anomaly, a congenital malformation of the heart that consists of downward placement of the tricuspid valve such that part of the right ventricle becomes incorporated into the pretricuspid chamber. Associated deformity of the tricuspid leaflets and defect of the atrial septum are frequent.

Donegan et al. (1968) found Ebstein anomaly in a 6-year-old boy and his maternal uncle.

The Ebstein anomaly predisposes to right bundle branch block, preexcitation, and an increased risk of sudden cardiac death. Atrial fibrillation occurs in about one-third of patients with Ebstein anomaly. Pierard et al. (1985) reported atrial standstill in father and son with Ebstein anomaly.

McIntosh et al. (1992) diagnosed severe Ebstein anomaly prenatally in 2 sisters born of Sri Lankan parents who were first cousins once removed.

Digilio et al. (2011) studied 44 consecutive patients with Ebstein anomaly presenting to 2 pediatric cardiology centers. In 12 (27%) of the 44 patients, Ebstein anomaly was part of a syndrome, and 7 of those patients were diagnosed with distinct disorders, including CHARGE syndrome (214800) in 2, and VACTERL association (see 192350), Noonan syndrome (163950), Kabuki syndrome (147920), Holt-Oram syndrome (142900), and Cornelia de Lange syndrome (see 122470) in 1 each. Of the 32 patients with nonsyndromic Ebstein anomaly, 10 (31%) had additional congenital heart defects (CHDs), including 7 atrial septal defects, 2 ventricular septal defects, 2 pulmonary stenoses, 1 dextrocardia, 1 aortic coarctation, and 1 patent ductus arteriosus; 1 of the patients with ASD also had a Wolff-Parkinson-White cardiac conduction anomaly (WPW; see 194200). The remaining 22 patients had Ebstein defect alone; 1 of these patients also had WPW. Familial recurrence of CHD was seen in 1 family, in which a mother with nonsyndromic Ebstein anomaly had a son with persistence of left ventricular noncompaction (see 604169).


Cytogenetics

In 2 unrelated patients with Ebstein anomaly and other malformations, de Lonlay-Debeney et al. (1998) described 2 distinct rearrangements of the long arm of chromosome 11.

In a study of 44 consecutive patients with Ebstein anomaly, Digilio et al. (2011) performed standard chromosome analysis and array CGH in the 12 patients in whom the anomaly was part of a syndrome, and identified chromosomal anomalies in 3 of them: a 1p36 deletion (see 607872) in association with an Xpter-Xp22.3 duplication (see 300830), an 8p23.1 deletion, and a deletion of 18q21.3-qter (see 601808).


Molecular Genetics

In 28 patients with nonsyndromic Ebstein anomaly, Digilio et al. (2011) screened the candidate genes GATA4 (600576) and NKX2.5 (600584), but did not find any mutations.


Animal Model

Canine tricuspid valve malformation (CTVM) is morphologically similar to Ebstein anomaly. Andelfinger et al. (2003) noted that familial occurrence of CTVM had been described, although most cases appeared to be sporadic. They studied 3 purebred Labrador retriever kindreds enriched for CTVM. Pedigree analysis indicated that CTVM segregated as an autosomal dominant trait with reduced penetrance. Genomewide linkage analysis in 1 kindred identified a CTVM susceptibility locus on chromosome 9 with a maximum multipoint lod score of 3.33. The 2 additional kindreds showed a conserved disease haplotype, indicating a founder effect in apparently unrelated Labrador retriever kindreds. The critical region of canine chromosome 9 contained a syntenic group of genes that has its human counterpart on 17q12-q23. Andelfinger et al. (2003) pointed to several possible candidate genes on 17q: TBX2 (600747) on 17q23, which plays a pivotal role in chamber differentiation and atrioventricular canal formation; TOB1 (605523) on 17q21, which is an important transmitter in the ERBB2 (164870) cascade involved in cardiac muscle and valve formation; and FZD2 (600667) on 17q21.1, which is a receptor in the Wnt-dishevelled signal transduction cascade expressed during cardiac morphogenesis.


REFERENCES

  1. Andelfinger, G., Wright, K. N., Lee, H. S., Siemens, L. M., Benson, D. W. Canine tricuspid valve malformation, a model of human Ebstein anomaly, maps to dog chromosome 9. J. Med. Genet. 40: 320-324, 2003. [PubMed: 12746392] [Full Text: https://doi.org/10.1136/jmg.40.5.320]

  2. de Lonlay-Debeney, P., de Blois, M.-C., Bonnet, D., Amiel, J., Abadie, V., Picq, M., Lyonnet, S., Sidi, D., Munnich, A., Vekemans, M., Cormier-Daire, V. Ebstein anomaly associated with rearrangements of chromosomal region 11q. Am. J. Med. Genet. 80: 157-159, 1998. [PubMed: 9805133] [Full Text: https://doi.org/10.1002/(sici)1096-8628(19981102)80:2<157::aid-ajmg12>3.0.co;2-u]

  3. Digilio, M. C., Bernardini, L., Lepri, F., Giuffrida, M. G., Guida, V., Baban, A., Versacci, P., Capolino, R., Torres, B., De Luca, A., Novelli, A., Marino, B., Dallapiccola, B. Ebstein anomaly: genetic heterogeneity and association with microdeletions 1p36 and 8p23.1. Am. J. Med. Genet. 155A: 2196-2202, 2011. [PubMed: 21815254] [Full Text: https://doi.org/10.1002/ajmg.a.34131]

  4. Donegan, C. C., Jr., Moore, M. M., Wiley, T. M., Jr., Hernandez, F. A., Green, J. R., Jr., Schiebler, G. L. Familial Ebstein's anomaly of the tricuspid valve. Am. Heart J. 75: 375-379, 1968. [PubMed: 5638476] [Full Text: https://doi.org/10.1016/0002-8703(68)90095-1]

  5. Gouffault, J., Le Damany, L., Lenegre, J. Un type particulier d'anomalie congenitale de la valve mitrale. Arch. Mal. Coeur 53: 1175-1181, 1960. [PubMed: 13707483]

  6. Gueron, M., Hirsch, M., Stern, J., Cohen, W., Levy, M. J. Familial Ebstein's anomaly with emphasis on the surgical treatment. Am. J. Cardiol. 18: 105-111, 1966. [PubMed: 5938901] [Full Text: https://doi.org/10.1016/0002-9149(66)90202-5]

  7. McIntosh, N., Chitayat, D., Bardanis, M., Fouron, J.-C. Ebstein anomaly: report of a familial occurrence and prenatal diagnosis. Am. J. Med. Genet. 42: 307-309, 1992. [PubMed: 1536167] [Full Text: https://doi.org/10.1002/ajmg.1320420309]

  8. Pierard, L. A., Henrard, L., Demoulin, J.-C. Persistent atrial standstill in familial Ebstein's anomaly. Brit. Heart J. 53: 594-597, 1985. [PubMed: 4005080] [Full Text: https://doi.org/10.1136/hrt.53.6.594]

  9. Yamauchi, T., Cayler, G. G. Ebstein's anomaly in the neonate: a clinical study of three cases observed from birth through infancy. Am. J. Dis. Child. 107: 165-172, 1964. [PubMed: 14091822]


Contributors:
Marla J. F. O'Neill - updated : 9/30/2011
Victor A. McKusick - updated : 11/6/2003
Victor A. McKusick - updated : 12/4/1998

Creation Date:
Victor A. McKusick : 6/3/1986

Edit History:
carol : 07/08/2022
carol : 10/03/2011
terry : 9/30/2011
tkritzer : 11/11/2003
tkritzer : 11/7/2003
terry : 11/6/2003
carol : 3/15/1999
carol : 12/9/1998
terry : 12/4/1998
mimadm : 2/19/1994
supermim : 3/16/1992
carol : 2/13/1992
supermim : 3/20/1990
ddp : 10/26/1989
marie : 3/25/1988



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OMIM® and Online Mendelian Inheritance in Man® are registered trademarks of the Johns Hopkins University.
Copyright® 1966-2024 Johns Hopkins University.

NOTE: OMIM is intended for use primarily by physicians and other professionals concerned with genetic disorders, by genetics researchers, and by advanced students in science and medicine. While the OMIM database is open to the public, users seeking information about a personal medical or genetic condition are urged to consult with a qualified physician for diagnosis and for answers to personal questions.
OMIM® and Online Mendelian Inheritance in Man® are registered trademarks of the Johns Hopkins University.
Copyright® 1966-2024 Johns Hopkins University.
Printed: April 24, 2024