Ebstein's Anomaly

Heart With Ebstein's Anomaly

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Ebstein's Anomaly is a rare defect, accounting for less than 1 percent of all congenital heart defects. The principal aberration occurring with Ebstein's Anomaly is a malformation of the tricuspid valve, which is located between the right atrium and right ventricle. Two of the three leaflets of the valve (the septal leaflet and the posterior leaflet) are displaced downward into the right ventricular cavity. These valve leaflets vary from mildly deformed to severely deformed. The third leaflet (the anterior leaflet) is not displaced but is typically large and redundant, often described as "sail-like". The portion of the right ventricle that sits above the displaced leaflets is usually thinner than normal and may be referred to as the atrialized portion of the right ventricle. A hole between the upper chambers of the heart, either an atrial septal defect or a patent foramen ovale, is virtually always present in association with Ebstein's anomaly. In some patients with this malformation, the pulmonary valve is also abnormal, either abnormally tight (pulmonary valve stenosis) or entirely closed (pulmonary valve atresia).

Most commonly, the deformed tricuspid valve has a tendency to leak, thus, as the right ventricle contracts some blood flows backwards from the right ventricle to the right atrium. Because of this backwards leakage of blood, a reduced volume of blood enters the right ventricle to be ejected to the lungs. The right atrium, which receives this leaking blood, is usually quite enlarged. Some of the blue blood from the right atrium may pass across the hole in the atrial septum into the left atrium. This blue blood then goes directly out to the body, which may be recognized as cyanosis in the patient. This is frequently present in newborns with Ebstein's anomaly and usually improves over the first weeks of life.

Infrequently, the deformed tricuspid valve forms an imperforate membrane. In this setting, rather than leaking, the tricuspid valve blocks blood from advancing into the right ventricle and out to the lungs.

In patients where the degree of valve deformity is mild and no symptoms are present, no intervention may be required other than prescribing antibiotics prior to dental or surgical procedures to prevent bacterial endocarditis. In patients with more severe involvement, cyanosis, shortness of breath, exercise intolerance and/or significant heart enlargement are often present and surgical intervention is warranted. The surgery usually consists of repairing or replacing the abnormal tricuspid valve and closing the hole between the atria.


What Is Normal Cardiac Anatomy?

When your child has a congenital heart defect, there's usually something wrong with the structure of his or her heart's structure.

 
Learn More About Normal Cardiac Anatomy

Heart With Normal Cardiac Anatomy

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When your child has a congenital heart defect, there's usually something wrong with the structure of his or her heart's structure.

The heart is composed of four chambers. The two upper chambers, known as atria, collect blood as it flows back to the heart. The two lower chambers, known as ventricles, pump blood with each heartbeat to the two main arteries (the pulmonary artery and the aorta). The septum is the wall that divides the heart into right and left sides. The atrial septum separates the right and left atria; likewise, the ventricular septum separates the two ventricles.

There are four valves that control the flow of blood through the heart. These flap-like structures allow blood to flow in only one direction. The tricuspid and mitral valves, also known as the atrioventricular valves, separate the upper and lower chambers of the heart. The aortic and pulmonary valves, also known as the arterial valves, separate the ventricles from the main arteries. Oxygen-depleted blood returns from the body and drains into the right atrium via the superior and inferior vena cavas. The blood in the right atrium then passes through the tricuspid valve and enters the right ventricle.

Next, the blood passes through the pulmonary valve, enters the pulmonary artery, and travels to the lungs where it is replenished with oxygen. The oxygen-rich blood returns to the heart via the pulmonary veins, draining into the left atrium. The blood in the left atrium passes through the bicuspid, or mitral, valve and enters the left ventricle.

Finally, the oxygen-rich blood flows through the aortic valve into the aorta and out to the rest of the body.

A to Z: Atrial Flutter

A to Z: Atrial Flutter

Atrial (AY-tree-ul) flutter is an abnormal heart rhythm (arrhythmia) that causes the heart to beat too quickly.

More to Know

The electrical impulse that keeps the heart beating normally begins at a group of cells called the sinus node, located in the right atrium (one of the heart's upper chambers). With atrial flutter, however, the electrical impulse begins in a circuit that moves throughout the right atrium and causes the heart to beat rapidly and abnormally.

A rapid heartbeat can stress the heart and cause chest pain, palpitations, shortness of breath, fatigue, and low blood pressure.

Atrial flutter is often caused by damage to the heart or by congenital (present at birth) heart defects. Other causes include certain medications, viral infections, and metabolic disorders. In some cases, it happens for no apparent reason. It can also come and go.

A rapid heartbeat can increase the risk of stroke or heart disease, so should be treated. Treating the cause of atrial flutter can usually restore a normal heart rate. Medications can also help slow the heart or thin the blood to reduce the risk of stroke.

Keep in Mind

Though it can be serious, if atrial flutter is treated properly, most people can live perfectly normal lives, although some may have a relapse of the condition from time to time.

All A to Z dictionary entries are regularly reviewed by KidsHealth medical experts.

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Date reviewed: September 26, 2016