If your child has a congenital heart defect, it means that your child was born with a problem in the structure of his or her heart.
Some congenital heart defects in children are simple and don't need treatment. Other congenital heart defects in children are more complex and may require several surgeries performed over a period of several years.
Learning about your child's congenital heart defect can help you understand the condition and know what you can expect in the coming months and years.
Serious congenital heart defects usually become evident soon after birth or during the first few months of life. Signs and symptoms could include:
Less serious congenital heart defects may not be diagnosed until later in childhood, because your child may not have any noticeable signs of a problem. If signs and symptoms are evident in older children, they may include:
Serious congenital heart defects are often diagnosed before or soon after your child is born. If you notice that your baby has any of the signs or symptoms above, call your child's doctor.
If your child has any of the signs or symptoms of less serious heart defects as he or she grows, call your child's doctor. Your child's doctor can let you know if your child's symptoms are due to a heart defect or another medical condition.
The heart is divided into four hollow chambers, two on the right and two on the left. To pump blood throughout the body, the heart uses its left and right sides for different tasks.
The right side of the heart moves blood to the lungs through vessels called pulmonary arteries. In the lungs, blood picks up oxygen then returns to the heart's left side through the pulmonary veins. The left side of the heart then pumps the blood through the aorta and out to the rest of the body.
During the first six weeks of pregnancy, the heart begins taking shape and starts beating. The major blood vessels that run to and from the heart also begin to form during this critical time during gestation.
It's at this point in your baby's development that heart defects may begin to develop. Researchers aren't sure exactly what causes most of these defects, but they think genetics, certain medical conditions, some medications and environmental factors, such as smoking, may play a role.
There are many different types of congenital heart defects, falling mainly into these categories:
Holes in the heart. Holes can form in the walls between heart chambers or between major blood vessels leaving the heart.
In certain situations, these holes allow oxygen-poor blood to mix with oxygen-rich blood, resulting in less oxygen being carried to your child's body. Depending on the size of the hole, this lack of sufficient oxygen can cause your child's skin or fingernails to appear blue or possibly lead to congestive heart failure.
A ventricular septal defect is a hole in the wall between the right and left chambers on the lower half of the heart (ventricles). An atrial septal defect occurs when there's a hole between the upper heart chambers (atria).
Patent ductus arteriosus (PAY-tunt DUK-tus ahr-teer-e-O-sus) is a connection between the pulmonary artery (containing deoxygenated blood) and the aorta (containing oxygenated blood). A complete atrioventricular canal defect is a condition that causes a hole in the center of the heart.
Abnormal blood vessels. Several congenital heart defects happen when blood vessels going to and from the heart don't form correctly, or they're not positioned the way they're supposed to be.
A defect called transposition of the great arteries occurs when the pulmonary artery and the aorta are on the wrong sides of the heart.
A condition called coarctation of the aorta happens when the main blood vessel supplying blood to the body is too narrow. Total anomalous pulmonary venous connection is a defect that occurs when blood vessels from the lungs attach to wrong area of the heart.
Heart valve abnormalities. If the heart valves can't open and close correctly, blood can't flow smoothly.
One example of this type of defect is called Ebstein's anomaly. In Ebstein's anomaly, the tricuspid valve — which is located between the right atrium and the right ventricle — is malformed and often leaks.
Another example is pulmonary atresia, in which the pulmonary valve is missing, causing abnormal blood flow to the lungs.
A normal heart has two upper (receiving) and two lower (pumping) chambers. The upper chambers, the right and left atria, receive incoming blood. The lower chambers, the more muscular right and left ventricles, pump blood out of your heart. The heart valves, which keep blood flowing in the correct direction, are gates at the chamber openings (for the tricuspid and mitral valves) and exits (for the pulmonary and aortic valves).
Most congenital heart defects result from problems early in your child's heart development, the cause of which is unknown. However, certain environmental and genetic risk factors may play a role. They include:
Medications. Certain medications taken during pregnancy may cause birth defects, including congenital heart defects. Give your doctor a complete list of medications you take before attempting to become pregnant.
Medications known to increase the risk of congenital heart defects include thalidomide (Thalomid), angiotensin-converting enzyme (ACE) inhibitors, statins, the acne medication isotretinoin (Absorica, Amnesteem, Claravis) and lithium.
Heredity. Congenital heart defects sometimes run in families and may be associated with a genetic syndrome. Many children with Down syndrome — which is caused by an extra 21st chromosome (trisomy 21) — have heart defects. A missing piece (deletion) of genetic material on chromosome 22 also causes heart defects.
Genetic testing can detect such disorders during fetal development. If you already have a child with a congenital heart defect, a genetic counselor can estimate the odds that your next child will have one.
Some potential complications that can occur with a congenital heart defect include:
Because the exact cause of most congenital heart defects is unknown, it may not be possible to prevent these conditions. However, there are some things you can do that might reduce your child's overall risk of birth defects and possibly heart defects, too, such as:
Your child's doctor may initially suspect a problem because he or she hears a heart murmur during a routine exam. A heart murmur is a sound that occurs when blood flows through the heart or blood vessels fast enough to make a sound that a doctor can hear with a stethoscope.
Most heart murmurs are innocent, meaning that there is no heart defect and the murmur isn't dangerous to your child's health. Some murmurs, however, may mean blood is flowing through your child's heart abnormally because he or she has a heart defect.
If it's possible your child has a heart defect, your doctor or your child's doctor may order several tests to see if your child has a heart problem. In addition to a regular physical exam, these could include:
Echocardiogram. Your child's doctor may use a regular echocardiogram to diagnose a congenital heart defect after your child has been born.
In this noninvasive test, your child's doctor performs an ultrasound to produce images of the heart. An echocardiogram allows the doctor to see your child's heart in motion and to identify abnormalities in the heart muscle and valves.
Cardiac catheterization. In this test, a thin, flexible tube (catheter) is inserted into a blood vessel at your baby's groin and guided through it into the heart.
Catheterization is sometimes necessary because it may give your child's doctor a much more detailed view of your child's heart defect than an echocardiogram. In addition, some treatment procedures can be done during cardiac catheterization.
A congenital heart defect may have no long-term effect on your child's health — in some instances, such defects can safely go untreated. Certain defects, such as small holes, may even correct themselves as your child ages.
Some heart defects, however, are serious and require treatment soon after they're found. Depending on the type of heart defect your child has, doctors treat congenital heart defects with:
Procedures using catheterization. Some children and adults now have their congenital heart defects repaired using catheterization techniques, which allow the repair to be done without surgically opening the chest and heart. Catheter procedures can often be used to fix holes or areas of narrowing.
In procedures that can be done using catheterization, the doctor inserts a thin tube (catheter) into a leg vein and guides it to the heart with the help of X-ray images. Once the catheter is positioned at the site of the defect, tiny tools are threaded through the catheter to the heart to repair the defect.
Open-heart surgery. Depending on your child's condition, he or she may need surgery to repair the defect. Many congenital heart defects are corrected using open-heart surgery. In open-heart surgery, the chest has to be opened.
In some cases, minimally invasive heart surgery may be an option. This type of surgery involves making small incisions between the ribs and inserting instruments through them to repair the defect.
Medications. Some mild congenital heart defects, especially those found later in childhood or adulthood, can be treated with medications that help the heart work more efficiently.
Drugs known as angiotensin-converting enzyme (ACE) inhibitors, angiotensin II receptor blockers (ARBs) and beta blockers and medications that cause fluid loss (diuretics) can help ease stress on the heart by lowering blood pressure, heart rate and the amount of fluid in the chest. Certain medications can also be prescribed to help irregular heartbeats (arrhythmias).
Sometimes, a combination of treatments is necessary. In addition, some catheter or surgical procedures have to be done in steps, over a period of years. Others may need to be repeated as a child grows.
Some children with congenital heart defects require multiple procedures and surgeries throughout life. Although the outcomes for children with heart defects have improved dramatically, most people, except those with very simple defects, will require ongoing care, even after corrective surgery.
Lifelong monitoring and treatment. Even if your child has surgery to treat a heart defect, your child's condition will need to be monitored for the rest of his or her life.
Initially, your child with a congenital heart defect will be monitored and have regular follow-up appointments with a pediatric cardiologist. As your child grows older, his or her care will transition to an adult congenital cardiologist, who can monitor his or her condition over time. A congenital heart defect can affect your child's adult life, as it can contribute to other health problems. Adults who have congenital heart defects may need other treatments for their condition.
As your child ages, it's important to remind him or her of the heart condition that was corrected and the need for ongoing, lifelong care by doctors experienced in evaluating and treating congenital heart disease. Encourage your child to keep his or her doctor informed about the heart defect and the procedures performed to treat the problem.
Exercise restrictions. Parents of children with congenital heart defects may worry about the risks of rough play and activity even after treatment. Although some children may need to limit the amount or type of exercise, many can participate in normal or near-normal activity.
Your child's doctor can tell you which activities are safe for your child. If some activities do pose distinct dangers, encourage your child to participate in other activities instead of focusing on what he or she can't do. Although every child is different, most children with congenital heart defects grow up to lead healthy, productive lives.
Infection prevention. Depending on the type of congenital heart defect your child had, and the surgery used to correct it, your child may need to take extra steps to prevent infection.
Sometimes, a congenital heart defect can increase the risk of infections — either in the lining of the heart or heart valves (infective endocarditis). Because of this risk, your child may need to take antibiotics to prevent infection before additional surgeries or dental procedures.
Children who are most likely to have a higher risk of infection include those whose defect was repaired with a prosthetic material or device, such as an artificial heart valve.
Ask your child's cardiologist if preventive antibiotics are necessary for your child.
It's natural for many parents to feel worried about their child's health, even after treatment of a congenital heart defect. Although many children who have congenital heart defects can do the same things children without heart defects can, here are a few things to keep in mind if your child has had a congenital heart defect:
Talk with your child's doctor about ways to help you or your child with difficulties related to your child's heart condition. He or she can suggest resources, such as support groups or therapists that may be helpful to you or your child.
If your child has a life-threatening heart defect, it will likely be detected soon after birth, or possibly before birth as a part of routine exams during pregnancy.
If you suspect your child has a heart defect later in infancy or childhood, talk to your child's doctor. Be prepared to describe your child's symptoms and provide a family medical history, since some heart defects tend to be hereditary.
Your child's doctor may also want to know if the mother of the child had any medical conditions or used any medications or alcohol while pregnant that may have been a risk factor for developing a congenital heart defect.
Your time with your doctor is limited, so preparing a list of questions may help you make the most of your time together. You might want to ask the following questions:
Your doctor is likely to ask you a number of questions. Being ready to answer them may reserve time to go over any points you want to spend more time on. Your doctor may ask: