Ventricular septal defect (VSD) is a gap or defect in the septum between the heart's two lower chambers (ventricles). The septum is a wall that separates the heart's right and left side of the heart. Septal defects are sometimes called a 'hole' in the heart.
It is the most common heart problem that babies are born with. Many defects in the ventricular septum close themselves and cause no problems. Otherwise, medicines or surgery can help. Most babies born with a defect in the septum have normal survival.
What causes ventricular septal defect?
By the time you have had a positive pregnancy test the heart is already developing from a simple tube structure.. By folding and remodelling the tube, when you are eight weeks pregnant your baby should already have four chambers in their heart. The septal wall (septum) develops parts made of muscle and other parts made of membrane. If the septal wall has not developed properly by this time, the baby may be born with a gap in the septum between the lower or pumping chambers (right and left ventricles). This is sometimes called a hole in the heart but clinicians may call it a ventricular septal defect.
There may be more than one hole. The size and position of the hole can also vary. Small holes create fewer problems for the baby and may go unnoticed.
Is ventricular septal defect genetic?
VSDs usually occur by themselves without any other associated birth defects. Sometimes they may occur with other heart problems or as part of an inherited or genetic condition. Most often the problem is not associated with any other medical condition and is not genetic.
Medical conditions in the mother, such as diabetes, use of cannabis or high alcohol intake in pregnancy, are also associated with increased chance of a baby having some heart defects including ventricular septal defect.
Holes can also develop in the ventricular septum after a heart attack (myocardial infarction) in adults. These are slightly different and happen because of damage to the muscle part of the septum.
How common is a ventricular septal defect?
VSDs are the most common heart problem that babies are born with. About 8 babies in every 1,000 born will have a problem with their heart or major blood vessels. Of these, half will have a VSD either alone or in association with another heart defect (such as congenital heart defect).
What happens in ventricular septal defect?
The problems depend on the size of the hole (defect). Small holes cause few or no symptoms. However, when babies have their checks with the doctor, a murmur may be noticed. This happens if the blood flows unusually in the heart.
With slightly bigger holes, early symptoms of ventricular septal defect may include sweating and becoming out of breath and tired quickly when feeding. Feeding is exercise for a baby and the extra effort needed brings out the symptoms. Not putting on weight is another warning sign and these babies also tend to have more chest infections than usual. These things usually start to happen between 4 and 6 weeks of age.
When the holes are large the things that happen are similar but more severe.
Does ventricular septal defect cause cyanosis?
Babies who only have holes in their heart do not tend to go blue (cyanosed). Babies who go blue when their hearts are working harder tend to have more complex heart or lung problems.
Diagnosis of ventricular septal defect
Your doctor may hear a murmur, or you have concerns that your baby is not putting on weight or is finding feeding difficult. Then your doctor may ask a children's specialist (paediatrician) to see your baby. They may ask for a chest X-ray or a special ultrasound scan of the baby's heart. This is called an echocardiogram and will show the structure of their heart. It will also show where the hole (defect) is and how big it is. It will check that there are no other heart problems present. These are important when deciding how to help the problem.
If the echocardiogram could not see all the problems, or the problems were very complex, it may be necessary to do cardiac catheterisation. In this test, dye that can be seen by X-rays is put into the blood vessels. X-rays are then taken as the blood passes through the heart. This allows the doctors to see exactly where the problems are in the heart.
Treatment of VSD
Small holes (defects) quite commonly close on their own in the first year of life. A small number continue to close as the child grows older. However, if they haven't closed by the time the child is 10 years old, they are very unlikely to close on their own. Most small holes do not require any treatment.
Medicines can be used to help the symptoms that can occur if the hole is larger. These may include medicines to relieve the pressure on the heart and lungs, and also to help the heart pump effectively. Feeding can be changed to special high-calorie feeds. As these need to be given in smaller amounts, the effort your baby needs to make when feeding is therefore reduced.
Large VSDs affecting the child's growth need surgery to close the hole. There are various ways to close the hole. The most common way is to open the ribcage and operate directly on the heart. Whilst the procedure is taking place, a machine (called a bypass machine) does the heart's job.
With advances in technology and skill, surgical treatment for VSD is safe, with excellent results. Available data indicate that patients whose VSD has been closed and who have no associated heart or lung problems can be expected to have normal life expectancy.
Sometimes abnormalities of the heart rhythm can happen during or after surgery. These can usually be treated. Small residual holes are often found after surgery. If they become problematic, it may be necessary to re-operate.
Techniques have been developed where a small blocking device (called an occluder) is placed into the heart. This is inserted through a blood vessel so that there is no need for open heart surgery. Instead, it is done as a keyhole procedure. The occluder is then moved into place with guide wires to block the hole. The keyhole procedure is done by specialist doctors who are experts in the plumbing of the heart (paediatric cardiologists). This is usually only offered to older children. It is not possible to use this procedure in very young children and in certain types of VSDs. The best treatment option is decided by the cardiology team in specialist hospitals.
What is the outlook?
Most children with VSDs do very well. However, they will need to be seen by a heart specialist for the rest of their lives, unless the hole (defect) closes itself. Testing (after treatment) will allow doctors to advise on what amount of exercise is safe for the child.
Children born with a hole in the heart should be advised how to take good care of their teeth. This is to minimise the risks of developing serious infections (endocarditis) which can damage the heart valves.
An adult with a VSD who has no symptoms is unlikely to need any treatment. However, they should have regular check-ups by a doctor who specialises in adult congenital heart disease. Some adults may develop further problems, usually with the heart valves. These control the normal flow of blood around the heart.
Women who have had holes in the heart may need specialist advice when they are planning to become pregnant. Those with repaired VSDs or with small holes and normal heart function can have children without a higher-than-normal risk for problems during pregnancy. However, those with unrepaired VSDs or closed VSDs with heart or lung complications will need to be checked regularly throughout their pregnancy. These checks will be carried out by an adult congenital heart disease specialist.
Is heart function normal after surgical closure of a ventricular septal defect?
In people with a VSD but no associated heart or lung problem, repair of the defect (hole) makes the heart function normally. These patients can participate in normal physical activity without any restriction.
People with complications related to a VSD, such as heart rhythm or heart valve problems, may have some physical restrictions and should take advice from a heart specialist.
Further reading and references
Transcatheter endovascular closure of perimembranous ventricular septal defect; NICE Interventional procedures guidance, March 2010
Jortveit J, Leirgul E, Eskedal L, et al; Mortality and complications in 3495 children with isolated ventricular septal defects. Arch Dis Child. 2016 Apr 18. pii: archdischild-2015-310154. doi: 10.1136/archdischild-2015-310154.
Schubert S; Current and new perspectives for interventional closure of ventricular septal defect. Kardiol Pol. 2021 Apr 2379(4):378-379. doi: 10.33963/KP.15950. Epub 2021 Apr 23.
Mostefa-Kara M, Houyel L, Bonnet D; Anatomy of the ventricular septal defect in congenital heart defects: a random association? Orphanet J Rare Dis. 2018 Jul 1813(1):118. doi: 10.1186/s13023-018-0861-z.
Dakkak W, Oliver TI; Ventricular Septal Defect