An implantable cardioverter defibrillator (ICD) is a small device that's placed in the chest or abdomen. Doctors use the device to help treat irregular heartbeats called arrhythmias (ah-RITH-me-ahs).
An ICD uses electrical pulses or shocks to help control life-threatening arrhythmias, especially those that can cause sudden cardiac arrest (SCA).
SCA is a condition in which the heart suddenly stops beating. If the heart stops beating, blood stops flowing to the brain and other vital organs. SCA usually causes death if it's not treated within minutes.
Your heart has its own internal electrical system that controls the rate and rhythm of your heartbeat. With each heartbeat, an electrical signal spreads from the top of your heart to the bottom. As the signal travels, it causes the heart to contract and pump blood.
Each electrical signal normally begins in a group of cells called the sinus node or sinoatrial (SA) node. As a signal spreads from the top of the heart to the bottom, it coordinates the timing of heart cell activity.
First, the heart's two upper chambers, the atria (AY-tree-uh), contract. This contraction pumps blood into the heart's two lower chambers, the ventricles (VEN-trih-kuls). The ventricles then contract and pump blood to the rest of the body. The combined contraction of the atria and ventricles is a heartbeat.
For more information about the heart's electrical system (including detailed animations), go to the Health Topics How the Heart Works article.
A problem with any part of the heart's electrical system can cause an arrhythmia. Most arrhythmias are harmless, but some can be serious.
ICDs use electrical pulses or shocks to treat life-threatening arrhythmias that occur in the ventricles (the heart's lower chambers).
When ventricular arrhythmias occur, the heart can't pump blood well. You can pass out within seconds and die within minutes if not treated.
To prevent death, the arrhythmia must be treated right away with an electric shock to the heart. This treatment is called defibrillation (de-fib-ri-LA-shun).
An ICD has wires with electrodes on the ends that connect to your heart chambers. The ICD will monitor your heart rhythm. If the device detects an irregular rhythm in your ventricles, it will use low-energy electrical pulses to restore a normal rhythm.
If the low-energy pulses don't restore your normal heart rhythm, the ICD will switch to high-energy pulses for defibrillation. The device also will switch to high-energy pulses if your ventricles start to quiver rather than contract strongly. The high-energy pulses last only a fraction of a second, but they can be painful.
Doctors also treat arrhythmias with another device called a pacemaker. An ICD is similar to a pacemaker, but has some differences.
Pacemakers give off only low-energy electrical pulses. They're often used to treat less dangerous heart rhythms, such as those that occur in the upper chambers of your heart. Most new ICDs can act as both pacemakers and defibrillators.
People who have heart failure may need a special device called a cardiac resynchronization therapy (CRT) device. The CRT device is able to pace both ventricles at the same time. This allows them to work together and do a better job pumping blood out of the heart. CRT devices that have a defibrillator are called
Implantable cardioverter defibrillators (ICDs) are used in children, teens, and adults. Your doctor may recommend an ICD if you're at risk for certain types of arrhythmia.
ICDs are used to treat life-threatening ventricular arrhythmias, such as those that cause the ventricles to beat too fast or quiver. You may be considered at high risk for a ventricular arrhythmia if you:
Doctors often recommend ICDs for people who have survived sudden cardiac arrest (SCA). They also may recommend them for people who have certain heart conditions that put them at high risk for SCA.
Some people who have heart failure may need a CRT-D device. This device combines a type of pacemaker called a cardiac resynchronization therapy (CRT) device with a defibrillator. CRT-D devices help both ventricles work together. This allows them to do a better job of pumping blood out of the heart.
Your doctor may recommend an ICD if he or she sees signs of a ventricular arrhythmia (or heart damage that would make one likely) on the following tests.
An EKG is a simple, painless test that detects and records the heart's electrical activity. The test shows how fast the heart is beating and its rhythm (steady or irregular). An EKG also records the strength and timing of electrical signals as they pass through the heart.
A standard EKG only records the heartbeat for a few seconds. It won't detect arrhythmias that don't happen during the test.
To diagnose arrhythmias that come and go, your doctor may have you wear a portable EKG monitor. The two most common types of portable EKGs are Holter and event monitors.
A Holter monitor records the heart's electrical activity for a full 24- or 48-hour period. You wear one while you do your normal daily activities. This allows the monitor to record your heart for a longer time than a standard EKG.
An event monitor is similar to a Holter monitor. You wear an event monitor while doing your normal activities. However, an event monitor only records your heart's electrical activity at certain times while you're wearing it.
You may wear an event monitor for 1 to 2 months, or as long as it takes to get a recording of your heart during symptoms.
Echocardiography (echo) uses sound waves to create a moving picture of your heart. The test shows the size and shape of your heart and how well your heart chambers and valves are working.
Echo also can identify areas of poor blood flow to the heart, areas of heart muscle that aren't contracting normally, and injury to the heart muscle caused by poor blood flow.
For this test, a thin, flexible wire is passed through a vein in your groin (upper thigh) or arm to your heart. The wire records the heart's electrical signals.
Your doctor uses the wire to electrically stimulate your heart. This allows him or her to see how your heart's electrical system responds. The electrical stimulation helps pinpoint where the heart's electrical system is damaged.
Some heart problems are easier to diagnose when your heart is working hard and beating fast. During stress testing, you exercise to make your heart work hard and beat fast while heart tests, such as an EKG or echo, are done. If you can't exercise, you may be given medicine to raise your heart rate.
An implantable cardioverter defibrillator (ICD) has wires with electrodes on the ends that connect to one or more of your heart's chambers. These wires carry the electrical signals from your heart to a small computer in the ICD. The computer monitors your heart rhythm.
If the ICD detects an irregular rhythm, it sends low-energy electrical pulses to prompt your heart to beat at a normal rate. If the low-energy pulses restore your heart's normal rhythm, you might avoid the high-energy pulses or shocks of the defibrillator (which can be painful).
Single-chamber ICDs have a wire that goes to either the right atrium or right ventricle. The wire senses electrical activity and corrects faulty electrical signaling within that chamber.
Dual-chamber ICDs have wires that go to both an atrium and a ventricle. These ICDs provide low-energy pulses to either or both chambers. Some dual-chamber ICDs have three wires. They go to an atrium and both ventricles.
The wires on an ICD connect to a small metal box implanted in your chest or abdomen. The box contains a battery, pulse generator, and small computer. When the computer detects irregular heartbeats, it triggers the ICD's pulse generator to send electrical pulses. Wires carry these pulses to the heart.
The ICD also can record the heart's electrical activity and heart rhythms. The recordings can help your doctor fine-tune the programming of your ICD so it works better to correct irregular heartbeats.
The type of ICD you get is based on your heart's pumping abilities, structural defects, and the type of irregular heartbeats you've had. Your ICD will be programmed to respond to the type of arrhythmia you're most likely to have.
Placing an implantable cardioverter defibrillator (ICD) requires minor surgery, which usually is done in a hospital. You'll be given medicine right before the surgery that will help you relax and might make you fall asleep.
Your doctor will give you medicine to numb the area where he or she will put the ICD. He or she also may give you antibiotics to prevent infections.
First, your doctor will thread the ICD wires through a vein to the correct place in your heart. An x-ray "movie" of the wires as they pass through your vein and into your heart will help your doctor place them.
Once the wires are in place, your doctor will make a small cut into the skin of your chest or abdomen. He or she will then slip the ICD's small metal box through the cut and just under your skin. The box contains the battery, pulse generator, and computer.
Once the ICD is in place, your doctor will test it. You'll be given medicine to help you sleep during this testing so you don't feel any electrical pulses. Then your doctor will sew up the cut. The entire surgery takes a few hours.
Expect to stay in the hospital 1–2 days after implantable cardioverter defibrillator (ICD) surgery. This allows your health care team to check your heartbeat and make sure your ICD is working well.
You'll need to arrange for a ride home from the hospital because you won't be able to drive for at least a week while you recover from the surgery.
For a few days to weeks after the surgery, you may have pain, swelling, or tenderness in the area where your ICD was placed. The pain usually is mild, and over-the-counter medicines can help relieve it. Talk to your doctor before taking any pain medicines.
Your doctor may ask you to avoid high-impact activities and heavy lifting for about a month after ICD surgery. Most people return to their normal activities within a few days of having the surgery.
Implantable cardioverter defibrillators (ICDs) can sometimes give electrical pulses or shocks that aren't needed.
A damaged wire or a very fast heart rate due to extreme physical activity may trigger unnecessary pulses. These pulses also can occur if you forget to take your medicines.
Children tend to be more physically active than adults. Thus, younger people who have ICDs are more likely to receive unnecessary pulses than older people.
Pulses sent too often or at the wrong time can damage the heart or trigger an irregular, sometimes dangerous heartbeat. They also can be painful and upsetting.
If needed, your doctor can reprogram your ICD or prescribe medicine so unnecessary pulses occur less often.
Although rare, some ICD risks are related to the surgery used to place the device. These risks include:
People who have ICDs may be at higher risk for heart failure. Heart failure is a condition in which your heart can't pump enough blood to meet your body's needs. It's not clear whether an ICD increases the risk of heart failure, or whether heart failure is just more common in people who need ICDs.
Although rare, an ICD may not work properly. This will prevent the device from correcting irregular heartbeats. If this happens, your doctor may be able to reprogram the device. If that doesn't work, you doctor might have to replace the ICD.
The longer you have an ICD, the more likely it is that you'll have some of the related risks.
The low-energy electrical pulses your implantable cardioverter defibrillator (ICD) gives aren't painful. You may not notice them, or you may feel a fluttering in your chest.
The high-energy pulses or shocks your ICD gives last only a fraction of a second. They may feel like thumping or a painful kick in the chest, depending on their strength.
Your doctor may give you medicine to decrease the number of irregular heartbeats you have. This will reduce the number of high-energy pulses sent to your heart. Such medicines include amiodarone or sotalol and beta blockers.
Your doctor may want you to call his or her office or come in within 24 hours of getting a strong shock from your ICD. See your doctor or go to an emergency room right away if you get many strong shocks within a short time.
Once you have an ICD, you have to avoid close or prolonged contact with electrical devices or devices that have strong magnetic fields. Devices that can interfere with an ICD include:
These devices can disrupt the electrical signaling of your ICD and prevent it from working well. You may not be able to tell whether your ICD has been affected.
How likely a device is to disrupt your ICD depends on how long you're exposed to it and how close it is to your ICD.
To be on the safe side, some experts recommend not putting your cell phone or MP3 player in a shirt pocket over your ICD (if they're turned on). You may want to hold your cell phone up to the ear that's opposite the site where your ICD was implanted. If you strap your MP3 player to your arm while listening to it, put it on the arm that's farther from your ICD.
You can still use household appliances, but avoid close and prolonged contact, as it may interfere with your ICD.
You can walk through security system metal detectors at your normal pace. Someone can check you with a metal detector wand as long as it isn't held for too long over your ICD site. You should avoid sitting or standing close to a security system metal detector. Notify airport screeners if you have an ICD.
Stay at least 2 feet away from industrial welders or electrical generators. Rarely, ICDs have caused unnecessary shocks during long, high-altitude flights.
Some medical procedures can disrupt your ICD. These procedures include:
Let all of your doctors, dentists, and medical technicians know that you have an ICD. Your doctor can give you a card that states what kind of ICD you have. Carry this card in your wallet. You might want to wear a medical ID bracelet or necklace that states that you have an ICD.
An ICD usually won't limit you from taking part in sports and exercise, including strenuous activities.
You may need to avoid full-contact sports, such as football. Such contact could damage your ICD or shake loose the wires in your heart. Ask your doctor how much and what kinds of physical activity are safe for you.
You'll have to avoid driving for at least a week while you recover from ICD surgery. If you've had sudden cardiac arrest, a ventricular arrhythmia, or certain symptoms of a ventricular arrhythmia (such as fainting), your doctor may ask you to not drive until you have gone 6 months without fainting. Some people may still faint even with an ICD.
Commercial driving isn't permitted with an ICD.
Your doctor will want to check your ICD regularly. Over time, your ICD may stop working well because:
To check your ICD, your doctor may ask you to come in for an office visit several times a year. Some ICD functions can be checked over the phone or through a computer connection to the Internet.
Your doctor also may recommend an EKG (electrocardiogram) to check for changes in your heart's electrical activity.
ICD batteries last between 5 and 7 years. Your doctor will replace the generator along with the battery before the battery begins to run down.
Replacing the generator/battery is less involved surgery than the original surgery to implant the ICD. The wires of your ICD also may need to be replaced eventually. Your doctor can tell you whether you need to replace your ICD or its wires.
An ICD can't cure heart disease. However, it can lower the risk of dying from SCA.
The National Heart, Lung, and Blood Institute (NHLBI) is strongly committed to supporting research aimed at preventing and treating heart, lung, and blood diseases and conditions and sleep disorders.
NHLBI-supported research has led to many advances in medical knowledge and care. For example, this research has helped evaluate methods and devices for treating heart problems.
The NHLBI continues to support research on various heart treatments, including implantable cardioverter defibrillators (ICDs). For example, NHLBI-sponsored research includes studies that explore:
Much of this research depends on the willingness of volunteers to take part in clinical trials. Clinical trials test new ways to prevent, diagnose, or treat various diseases and conditions.
For example, new treatments for a disease or condition (such as medicines, medical devices, surgeries, or procedures) are tested in volunteers who have the illness. Testing shows whether a treatment is safe and effective in humans before it is made available for widespread use.
By taking part in a clinical trial, you can gain access to new treatments before they're widely available. You also will have the support of a team of health care providers, who will likely monitor your health closely. Even if you don't directly benefit from the results of a clinical trial, the information gathered can help others and add to scientific knowledge.
If you volunteer for a clinical trial, the research will be explained to you in detail. You'll learn about treatments and tests you may receive, and the benefits and risks they may pose. You'll also be given a chance to ask questions about the research. This process is called informed consent.
If you agree to take part in the trial, you'll be asked to sign an informed consent form. This form is not a contract. You have the right to withdraw from a study at any time, for any reason. Also, you have the right to learn about new risks or findings that emerge during the trial.
For more information about clinical trials related to ICDs, talk with your doctor. You also can visit the following Web sites to learn more about clinical research and to search for clinical trials:
For more information about clinical trials for children, visit the NHLBI's Children and Clinical Studies Web page.
The NHLBI updates Health Topics articles on a biennial cycle based on a thorough review of research findings and new literature. The articles also are updated as needed if important new research is published. The date on each Health Topics article reflects when the content was originally posted or last revised.