Congenital Heart Defects
What is a congenital heart defect?
When the heart or blood vessels near the heart do not develop
normally before birth, a condition called congenital heart defect
occurs (congenital means "inborn" or "existing
at birth").
Congenital heart defects occur in about 1 percent of live births,
but, in most cases, the cause is unknown. Sometimes a viral infection
or hereditary causes the condition. Some congenital heart defects
are the result too much alcohol or drug use during pregnancy.
Most heart defects either cause an abnormal blood flow through
the heart, or obstruct blood flow in the heart or vessels (obstructions
are called stenoses and can occur in heart valves, arteries, or
veins).
Rarely, defects include those in which:
- the right or left side of the heart is incompletely formed
- called hypoplastic heart.
- only one ventricle is present.
- both the pulmonary artery and aorta arise from the same ventricle.
There are many disorders of the heart that require clinical
care by a physician or other healthcare professional. Listed below
are some of the conditions, for which we have provided a brief
overview.
aortic stenosis (AS)
In this condition, the aortic valve between the left
ventricle and the aorta did not form properly and is narrowed,
making it difficult for the heart to pump blood to the body.
A normal valve has three leaflets or cusps, but a stenotic valve
may have only one cusp (unicuspid) or two cusps (bicuspid).
In some children, chest pain, unusual tiring, dizziness or
fainting may occur. Otherwise, most children with aortic stenosis
have no symptoms. But, even mild stenosis may worsen over time,
and surgery may be needed to correct the blockage - or the valve
may need to be replaced with an artificial one.
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pulmonary stenosis (PS)
The pulmonary, or pulmonic, valve, located between the
right ventricle and the pulmonary artery, opens to allow blood
to flow from the right ventricle to the lungs. When a defective
pulmonary valve does not open properly, it causes the heart
to pump harder than normal to overcome the obstruction. Usually,
the obstruction can be corrected by balloon valvuloplasty, although
in some patients, open heart surgery may be needed.
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bicuspid aortic valve
In this condition, an infant is born with a bicuspid valve which
has only two flaps. (A normal aortic valve has three flaps that
open and close). If the valve becomes narrowed, it is more difficult
for the blood to flow through, and often the blood leaks backward.
Symptoms usually do not develop during childhood, but are often
detected during the adult years.
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subaortic stenosis
This condition refers to a narrowing of the left ventricle just
below the aortic valve. Normally, blood passes through it to
go into the aorta. However, subaortic stenosis limits the blood
flow out of the left ventricle, often resulting in an increased
workload for the left ventricle. Subaortic stenosis may be congenital
or caused by a form of cardiomyopathy.
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coarctation of
the aorta (coarct)
In this condition, the aorta is narrowed or constricted, obstructing
blood flow to the lower part of the body and increasing blood
pressure above the constriction. Usually there are no symptoms
at birth, but they can develop as early as the first week after
birth. If severe symptoms of high blood pressure and congestive
heart failure develop, surgery may be considered.
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Some congenital heart defects allow blood to flow between the
right and left chambers of the heart because an infant is born
with an opening in the septum wall that separates the right and
left sides of the heart.
atrial septal defect
(ASD)
In this condition, there is an abnormal opening between the
two upper chambers of the heart - the right and left atria -
causing an abnormal blood flow through the heart. Children with
ASD have few symptoms. Closing the atrial defect by open heart
surgery in childhood can often prevent serious problems later
in life.
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Ebstein's anomaly
In this defect, there is a downward displacement of the tricuspid
valve (located between the upper and lower chambers on the right
side of the heart) into the right bottom chamber of the heart
(or right ventricle). It is usually associated with an atrial
septal defect.
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ventricular septal
defect (VSD)
In this condition, a hole occurs between the two lower chambers
of the heart. Because of this hole, blood from the left ventricle
flows back into the right ventricle, due to higher pressure
in the left ventricle. This causes an extra volume of blood
to be pumped into the lungs by the right ventricle, which can
create congestion in the lungs.
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Cyanotic defects are defects in which blood pumped to the body
contains less-than-normal amounts of oxygen, resulting in a condition
called cyanosis. It causes a blue discoloration of the skin. Infants
with cyanosis are often called "blue babies."
tetralogy of Fallot
This condition is characterized by four defects, including the
following:
- an abnormal opening, or ventricular septal defect, that
allows blood to pass from the right ventricle to the left
ventricle without going through the lungs
- a narrowing (stenosis) at or just beneath the pulmonary
valve that partially blocks the flow of blood from the right
side of the heart to the lungs
- the right ventricle is more muscular than normal
- the aorta lies directly over the ventricular septal defect
Tetralogy of Fallot is the most common defect causing cyanosis
in persons beyond 2 years of age. Most children with tetralogy
of Fallot have open-heart surgery before school age to close
the ventricular septal defect and remove the obstructing muscle.
Lifelong medical follow-up is needed.
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tricuspid atresia
In this condition, there is no tricuspid valve, therefore, no
blood flows from the right atrium to the right ventricle. Tricuspid
atresia defect is characterized by the following:
- a small right ventricle
- a large left ventricle
- diminished pulmonary circulation
- cyanosis
A surgical shunting procedure is often necessary to increase
the blood flow to the lungs.
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transposition
of the great arteries
In this embryologic defect, the positions of the pulmonary artery
and the aorta are reversed, thus:
- the aorta originates from the right ventricle, so most of
the blood returning to the heart from the body is pumped back
out without first going to the lungs.
- the pulmonary artery originates from the left ventricle,
so that most of the blood returning from the lungs goes back
to the lungs again.
Immediate medical intervention is necessary to correct this
condition.
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hypoplastic left
heart syndrome
In this condition, the left side of the heart is underdeveloped,
including the aorta, aortic valve, left ventricle, and mitral
valve. Blood reaches the aorta through a patent ductus arteriosus,
and if this ductus closes, as is normal, the baby will die.
The baby often seems normal at birth, but the condition will
become noticeable within a few days of birth, as the ductus
closes. Babies with this syndrome become pale, have difficulty
breathing, and are unable to feed. Treatment may include complex
surgery or a heart transplant.
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patent ductus arteriosus
(PDA)
This defect, which normally occurs during the fetal life, short
circuits the normal pulmonary vascular system and allows blood
to mix between the pulmonary artery and the aorta. Prior to
birth, there is an open passageway between the two blood vessels,
which closes soon after birth. When it does not close, some
blood returns to the lungs. Patent ductus arteriosus is often
seen in premature infants.
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