Ebstein's anomaly is a rare heart defect that's present at birth (congenital). In Ebstein's anomaly, your tricuspid valve â the valve between the two right heart chambers (right atrium and right ventricle) â doesn't work properly. The tricuspid valve sits lower than normal in the right ventricle, and the tricuspid valve's leaflets are abnormally formed.
Blood may leak back through the valve, making your heart work less efficiently. Ebstein's anomaly may also lead to enlargement of the heart or heart failure.
If you have no signs or symptoms associated with Ebstein's anomaly, careful monitoring of your heart may be all that's necessary. If signs and symptoms bother you, or if the heart is enlarging or becoming weaker, treatment for Ebstein's anomaly may be necessary. Treatment options include medications and surgery.
Source: http://www.mayoclinic.com
Mild forms of Ebstein's anomaly may not cause symptoms until later in adulthood. If signs and symptoms are present, they may include:
If you or your child has signs or symptoms of heart failure â such as feeling easily fatigued or short of breath, even with normal activity â or is showing blue skin coloration around the lips and nails (cyanosis), talk to your doctor. He or she may refer you to a doctor who specializes in congenital heart disease (cardiologist).
Source: http://www.mayoclinic.com
Ebstein's anomaly is a heart defect that you have at birth (congenital). Why it occurs is still unknown. To understand how Ebstein's anomaly affects your heart, it helps to know a little about how the heart works to supply your body with blood.
Your heart is made up of four chambers. The two upper chambers (atria) receive blood. The two lower chambers (ventricles) pump blood.
Four valves open and close to let blood flow in one direction through the heart. Each valve consists of two or three strong, thin flaps (leaflets) of tissue. When closed, a valve prevents blood from flowing to the next chamber or from returning to the previous chamber.
Oxygen-poor blood returns from your body and flows into the right atrium. Blood then flows through the tricuspid valve and into the right ventricle, which pumps the blood to your lungs to receive oxygen. On the other side of your heart, oxygen-rich blood from your lungs flows into the left atrium, through the mitral valve and into the left ventricle, which then pumps the blood to the rest of your body.
In Ebstein's anomaly, the tricuspid valve sits lower than normal in the right ventricle. This makes it so that a portion of the right ventricle becomes part of the right atrium (becomes atrialized), causing the right atrium to be larger than usual. Because of this, the right ventricle can't work properly.
Also, the tricuspid valve's leaflets are abnormally formed. This can lead to blood leaking backward into the right atrium (tricuspid valve regurgitation).
The placement of the valve and how poorly it's formed may vary among people. Some people may have a mildly abnormal valve. Others may have a valve that is extremely displaced, and it may leak severely.
The more the tricuspid valve leaks, the more the right atrium enlarges as it receives more blood. At the same time, the right ventricle enlarges (dilates) as it tries to cope with the leaky valve and still deliver blood to the lungs. Thus, the right-sided chambers of the heart enlarge, and as they do, they weaken, which may lead to heart failure.
Several other heart conditions may be associated with Ebstein's anomaly. A few common conditions include:
Holes in the heart. Many people with Ebstein's anomaly have a hole between the two upper chambers of the heart called an atrial septal defect or a small flap-like opening called a patent foramen ovale (PFO). A PFO is a hole between the upper heart chambers that is present in all babies before birth but usually closes after birth, although it may remain open in some people without causing issues.
These holes may allow oxygen-poor blood in the right atrium to mix with oxygen-rich blood in the left atrium, decreasing the amount of oxygen available in your blood. This causes a bluish discoloration of the lips and skin (cyanosis).
Abnormal heartbeats (arrhythmias). Some people with Ebstein's anomaly have an abnormal heart rhythm (arrhythmia) characterized by rapid heartbeats (tachycardia).
These types of arrhythmias can make your heart work less effectively, especially when the tricuspid valve is leaking severely. In some cases, a very fast heart rhythm may cause fainting spells (syncope).
Source: http://www.mayoclinic.com
To diagnose Ebstein's anomaly, your doctor may review your signs and symptoms and conduct a physical examination. If your doctor suspects an underlying problem, such as congenital heart disease, or if you have other signs and symptoms that may suggest Ebstein's anomaly, your doctor may recommend several tests, including:
Echocardiogram. This test is often used to diagnose Ebstein's anomaly and other congenital heart defects. In this test, sound waves produce detailed images of your heart. This test assesses the structure of your heart, the tricuspid valve and the blood flow through your heart.
Your doctor may also order a transesophageal echocardiogram. In this test, your doctor inserts a tube with a tiny sound device (transducer) into the part of your digestive tract that runs from your throat to your stomach (esophagus). Because the esophagus lies close to your heart, the transducer provides a detailed image of your heart.
Electrophysiology study. This test may be used to diagnose irregular heart rhythms (arrhythmias). In this test, doctors thread thin, flexible tubes (catheters) tipped with electrodes through your blood vessels to a variety of spots within your heart. Once in place, the electrodes can map the spread of electrical impulses through your heart.
In addition, your doctor can use the electrodes to stimulate your heart to beat at rates that may trigger â or halt â an arrhythmia. This may help your doctor to determine if medications may help treat the arrhythmia.
Cardiac catheterization. Doctors rarely use this test to diagnose Ebstein's anomaly. However, in a few cases doctors may order it to obtain additional information, to confirm findings from other tests, or to check heart arteries.
In this procedure, doctors insert a long, thin tube (catheter) into a blood vessel in your groin, arm or neck and guide it to your heart using X-ray imaging. A special dye injected through the catheter helps your doctor see the blood flow through your heart, blood vessels and valves; measure pressures and oxygen levels in your heart; and look for abnormalities inside the heart and lungs.
Source: http://www.mayoclinic.com
Many people with mild Ebstein's anomaly have few complications. However, you may need to take some precautions in certain situations:
Being active. If you have mild Ebstein's anomaly with a nearly normal heart size and no heart rhythm disturbances, you can probably participate in most physical activities.
Depending on your signs and symptoms, your doctor may recommend that you avoid certain competitive sports, such as football or basketball. Your doctor can help you decide which activities are right for you.
During pregnancy. In many cases, women with mild Ebstein's anomaly can safely have children. But pregnancy does have risks.
If you plan on becoming pregnant, be sure to talk to your doctor ahead of time. He or she can tell you if it's safe for you to become pregnant and help decide how much extra monitoring you may need throughout pregnancy and childbirth. He or she may also suggest other treatments for your condition or symptoms before you become pregnant.
Being pregnant puts additional strain on your heart and circulatory system not only during pregnancy, but also during labor and delivery. However, vaginal delivery may be possible. Rarely, severe complications can develop that can cause death to the mother or baby.
Other complications that may result from Ebstein's anomaly include heart failure, heart rhythm problems and, less commonly, sudden cardiac arrest or stroke.
Source: http://www.mayoclinic.com
If you or your child has mild Ebstein's anomaly, here are some steps that may help you cope:
Stay active. Be as physically active as your or your child's doctor allows. Exercise can help strengthen the heart and improve blood circulation.
If you're a parent of a child with Ebstein's anomaly, it's natural to want to protect your child from harm. But remember that your child needs to live life as normally as possible. Encourage playtime with breaks as needed. Ask your doctor for a note you can give to your child's teachers or caregivers describing any restrictions on his or her physical activity.
Develop a support network. Although many people with congenital heart defects lead normal, healthy lives, living with a heart defect isn't always easy, particularly when you or your child needs continued specialized care. The physical, emotional and financial stress of coping with a serious health condition can be overwhelming.
Having family and friends you can rely on is critical to successful coping. In addition, you may wish to ask your doctor about local support groups that may be helpful. Support groups can be a great source of practical information, comfort and friendship.
Source: http://www.mayoclinic.com
Congenital heart defects, such as Ebstein's anomaly, happen early in the development of a baby's heart.
It's uncertain what risk factors might cause the defect. Genetic and environmental factors are both thought to play a role. People with a family history of heart defects may be more likely to have Ebstein's anomaly. A mother's exposure to certain medications, such as lithium, may be associated with Ebstein's anomaly in the child.
Source: http://www.mayoclinic.com
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