Ebstein's anomaly

Ebstein's anomaly is a congenital heart defect in which the septal and posterior leaflets of the tricuspid valve are displaced towards the apex of the right ventricle of the heart.[1] It is classified as a critical congenital heart defect[2] accounting for less than 1% of all congenital heart defects presenting in around per 200,000 live births.[3] Ebstein anomaly is the congenital heart lesion most commonly associated with supraventricular tachycardia.

Ebstein's anomaly
Pathological specimen and ultrasound image of a heart with Ebstein's anomaly: Abbreviations: RA: right atrium; ARV: atrialized right ventricle; FRV: functional right ventricle; AL: anterior leaflet; SL: septal leaflet; LA: left atrium; LV: left ventricle; asterisk: grade II tethering of the tricuspid septal leaflet
SpecialtyCardiology 

Signs and symptoms

The annulus of the valve is still in the normal position. The valve leaflets, however, are to a varying degree, attached to the walls and septum of the right ventricle. A subsequent "atrialization" of a portion of the morphologic right ventricle (which is then contiguous with the right atrium) is seen. This causes the right atrium to be large and the anatomic right ventricle to be small in size.

  • S3 heart sound
  • S4 heart sound
  • Triple or quadruple gallop due to widely split S1 and S2 sounds plus a loud S3 and/or S4
  • Systolic murmur of tricuspid regurgitation = Holosystolic or early systolic murmur along the lower left sternal border depending on the severity of the regurgitation
  • Right atrial hypertrophy
  • Right ventricular conduction defects
  • Wolff-Parkinson-White syndrome often accompanies
A diagram showing the downward displacement of the tricuspid valve from its normal position in the fibrous ring down into the right ventricle.

While Ebstein's anomaly is defined as the congenital displacement of the tricuspid valve towards the apex of the right ventricle, it is often associated with other abnormalities.

Anatomic abnormalities

Typically, anatomic abnormalities of the tricuspid valve exist, with enlargement of the anterior leaflet of the valve. The other leaflets are described as being plastered to the endocardium. Tethering the underlying ventricular wall is the most common for the posterior and septal leaflets, and sail-like anterior leaflets may be tethered to the RV free wall also.

ECGs recorded during sinus rhythm and AVRT in a 9-year-old girl with Ebstein's anomaly and a Mahaim accessory pathway.

About 50% of individuals with Ebstein's anomaly have an associated shunt between the right and left atria, either an atrial septal defect or a patent foramen ovale.[4]

Electrophysiologic abnormalities

About 50% of individuals with Ebstein's anomaly have an accessory pathway with evidence of Wolff-Parkinson-White syndrome, secondary to the atrialized right ventricular tissue. This can lead to abnormal heart rhythms including atrioventricular re-entrant tachycardia.

A 10-lead ECG of a woman with Ebstein's anomaly: The ECG shows signs of right atrial enlargement, best seen in V1. Other P waves are broad and tall, these are termed "Himalayan" P waves. Also, a right bundle-branch block pattern and a first-degree atrioventricular block (prolonged PR-interval) due to intra-atrial conduction delay are seen. No evidence of a Kent-bundle is seen in this patient. The T wave inversion in V1-4 and a marked Q wave in III occur; these changes are characteristic for Ebstein's anomaly and do not reflect ischemic ECG changes in this patient.

Other abnormalities that can be seen on the ECG include:

  1. signs of right atrial enlargement or tall and broad 'Himalayan' P waves
  2. first degree atrioventricular block manifesting as a prolonged PR-interval[5]
  3. low amplitude QRS complexes in the right precordial leads
  4. atypical right bundle branch block
  5. T wave inversion in V1-V4 and Q waves in V1-V4 and II, III and aVF.[6]

Risk factors

An enlargement of the aorta may occur; an increased risk of abnormality is seen in babies of women taking lithium during the first trimester of pregnancy[7] (though some have questioned this)[8] and in those with Wolff-Parkinson-White syndrome.

Diagnosis

Diagnosis is mainly depends on Echocardiography. Chest x will shows cardiomegaly

Treatment

Medication

Ebstein's cardio physiology typically presents as an (antidromic) AV reentrant tachycardia with associated pre-excitation. In this setting, the preferred medication treatment agent is procainamide. Since AV-blockade may promote conduction over the accessory pathway, drugs such as beta blockers, calcium channel blockers, and digoxin are contraindicated.

If atrial fibrillation with pre-excitation occurs, treatment options include procainamide, flecainide, propafenone, dofetilide, and ibutilide, since these medications slow conduction in the accessory pathway causing the tachycardia and should be administered before considering electrical cardioversion. Intravenous amiodarone may also convert atrial fibrillation and/or slow the ventricular response.

Surgery

The Canadian Cardiovascular Society (CCS) recommends surgical intervention for these indications:[9]

The CCS further recommends patients who require operation for Ebstein's anomaly should be operated on by congenital heart surgeons who have substantial specific experience and success with this operation. Every effort should be made to preserve the native tricuspid valve.[9]

History

Ebstein's anomaly was named after Wilhelm Ebstein,[10][11] who in 1866 described the heart of the 19-year-old Joseph Prescher.

References

  1. Boston, Umar S.; Bayle, Ken; Kumar, T. K. Susheel; Knott-Craig, Christopher J. (2020). "107. Neonatal Ebstein's Anomaly". In Raja, Shahzad G. (ed.). Cardiac Surgery: A Complete Guide. Switzerland: Springer. pp. 971–980. ISBN 978-3-030-24176-6.
  2. "Facts About Critical Congenital Heart Defects | NCBDDD | CDC". www.cdc.gov. 2017-06-27. Retrieved 2017-10-12.
  3. Jost, Christine H. Attenhofer; Connolly, Heidi M.; Dearani, Joseph A.; Edwards, William D.; Danielson, Gordon K. (2007-01-16). "Ebstein's Anomaly". Circulation. 115 (2): 277–285. doi:10.1161/CIRCULATIONAHA.106.619338. ISSN 0009-7322. PMID 17228014.
  4. Mohan, Jagdish C. (2014). A Practical Approach to Clinical Echocardiography. Jaypee Brothers Medical Pub. p. 119. ISBN 978-93-5152-140-2.
  5. "Atrioventricular Block". The Lecturio Medical Concept Library. Retrieved 3 July 2021.
  6. Khairy P, Marelli AJ (December 2007). "Clinical use of electrocardiography in adults with congenital heart disease". Circulation. 116 (23): 2734–46. doi:10.1161/CIRCULATIONAHA.107.691568. PMID 18056539.
  7. Attenhofer Jost CH, Connolly HM, Dearani JA, Edwards WD, Danielson GK (2007). "Ebstein's anomaly". Circulation. 115 (2): 277–85. doi:10.1161/CIRCULATIONAHA.106.619338. PMID 17228014.
  8. Yacobi S, Ornoy A (2008). "Is lithium a real teratogen? What can we conclude from the prospective versus retrospective studies? A review". Isr J Psychiatry Relat Sci. 45 (2): 95–106. PMID 18982835. Archived from the original on September 30, 2020.
  9. Silversides, C. K.; Salehian, O.; Oechslin, E.; Schwerzmann, M.; Vonder Muhll, I.; Khairy, P.; Horlick, E.; Landzberg, M.; Meijboom, F.; Warnes, C.; Therrien, J. (2010). "Canadian Cardiovascular Society 2009 Consensus Conference on the management of adults with congenital heart disease: Complex congenital cardiac lesions". The Canadian Journal of Cardiology. 26 (3): e98–117. doi:10.1016/S0828-282X(10)70356-1. PMC 2851473. PMID 20352139.
  10. synd/435 at Who Named It?
  11. W. Ebstein. Über einen sehr seltenen Fall von Insufficienz der Valvula tricuspidalis, bedingt durch eine angeborene hochgradige Missbildung derselben. Archiv für Anatomie, Physiologie und wissenschaftliche Medicin, Leipzig, 1866, 238-254.
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