An implantable cardioverter-defibrillator (ICD) is a small battery-powered device placed in your chest to monitor your heart rhythm and detect irregular heartbeats. An ICD can deliver electric shocks via one or more wires connected to your heart to fix an abnormal heart rhythm.
You might need an ICD if you have a dangerously fast heartbeat (ventricular tachycardia) or a chaotic heartbeat that keeps your heart from supplying enough blood to the rest of your body (ventricular fibrillation). Ventricles are the lower chambers of your heart.
ICDs detect and stop abnormal heartbeats (arrhythmias). The device continuously monitors your heartbeat and delivers electrical pulses to restore a normal heart rhythm when necessary. An ICD differs from a pacemaker — another implantable device used to help control abnormal heart rhythms.
You've likely seen TV shows in which hospital workers "shock" an unconscious person out of cardiac arrest with electrified paddles. An ICD does the same thing only internally and automatically when it detects an abnormal heart rhythm.
An ICD is surgically placed under your skin, usually below your left collarbone. One or more flexible, insulated wires (leads) run from the ICD through your veins to your heart.
Because the ICD constantly monitors for abnormal heart rhythms and instantly tries to correct them, it helps when your heart stops beating (cardiac arrest), even when you are far from the nearest hospital.
When you have a rapid heartbeat, the wires from your heart to the device transmit signals to the ICD, which sends electrical pulses to regulate your heartbeat. Depending on the problem with your heartbeat, your ICD could be programmed for:
Usually, only one shock is needed to restore a normal heartbeat. Sometimes, however, you might have two or more shocks during a 24-hour period.
Having three or more shocks in a short time period is known as an electrical or arrhythmia storm. If you have an electrical storm, you should seek emergency care to see if your ICD is working properly or if you have a problem that's making your heart beat abnormally.
If necessary, the ICD can be adjusted to reduce the number and frequency of shocks. You may need additional medications to make your heart beat regularly and decrease the chance of an ICD storm.
An ICD can also record the heart's activity and variations in rhythm. This information helps your doctor evaluate your heart rhythm problem and, if necessary, reprogram your ICD.
A subcutaneous ICD (S-ICD) is a newer type of ICD available at some surgical centers. An S-ICD is implanted under the skin at the side of the chest below the armpit. It's attached to an electrode that runs along your breastbone.
You may be a candidate for this device if you have structural defects in your heart that prevent inserting wires to the heart through your blood vessels, or if you have other reasons for wanting to avoid traditional ICDs. Implanting a subcutaneous ICD is less invasive than an ICD that attaches to the heart, but the device is larger in size than an ICD.
You're a candidate for an ICD if you've had sustained ventricular tachycardia, survived a cardiac arrest or fainted from a ventricular arrhythmia. You might also benefit from an ICD if you have:
Risks associated with ICD implantation are uncommon but may include:
To determine whether you need an ICD, your doctor might perform a variety of diagnostic tests, which may include:
Holter monitoring. Also known as an ambulatory electrocardiogram monitor, a Holter monitor records your heart rhythm for 24 hours. Wires from electrodes on your chest go to a battery-operated recording device carried in your pocket or worn on a belt or shoulder strap.
While wearing the monitor, you'll keep a diary of your activities and symptoms. Your doctor will compare the diary with the electrical recordings and try to figure out the cause of your symptoms.
You'll probably need to fast for at least eight hours before your surgery. Talk to your doctor about any medications you take and whether you should continue to take them before your procedure to implant an ICD.
Usually, the procedure to implant an ICD can be performed with numbing medication and a sedative that relaxes you but allows you to remain aware of your surroundings. In some cases, general anesthesia may be used so that you're unconscious for the procedure.
During surgery, one or more flexible, insulated wires (leads) are inserted into veins near your collarbone and guided, with the help of X-ray images, to your heart. The ends of the leads are secured to your heart, while the other ends are attached to the generator, which is usually implanted under the skin beneath your collarbone. The procedure usually takes a few hours.
Once the ICD is in place, your doctor will test it and program it for your heart rhythm problem. Testing the ICD might require speeding up your heart and then shocking it back into normal rhythm.
You'll usually be released on the day of your surgery, once the anesthesia has worn off. You'll need to arrange for a ride home because you won't be able to drive right away.
Because some defibrillators have leads placed through the veins into the heart, you'll need to avoid abrupt movements that raise your left arm above shoulder-height for two to three weeks. This is so the leads don't move until the area has had time to heal. That also means no driving during that time.
If you got a subcutaneous defibrillator, there are no leads placed through the veins, so there aren't any restrictions on driving or lifting your arm above your shoulder.
After surgery, you may have some pain in the incision area, which can remain swollen and tender for a few days or weeks. Your doctor might prescribe pain medication.
As your pain lessens, you can take an over-the-counter pain reliever, such as acetaminophen. Aspirin and ibuprofen aren't recommended because they may increase your risk of bleeding.
Unless your doctor instructs you to do so, don't take pain medication containing aspirin because it can increase the risk of bleeding.
ICDs have become standard treatment for anyone who has survived cardiac arrest, and they're increasingly used in people at high risk of sudden cardiac arrest. An ICD lowers your risk of sudden death from cardiac arrest more than medication alone.
Although the electrical shocks can be unsettling, they're a sign that the ICD is effectively treating your heart rhythm problem and protecting you from sudden death. Talk to your doctor about how to best care for your ICD.
After the procedure, you'll need to take some precautions to avoid injuries and make sure your ICD works properly.
You'll likely be able to return to normal activities soon after you recover from surgery. Follow your doctor's instructions. For four weeks after surgery, your doctor might ask you to refrain from:
Your doctor will probably advise you to avoid contact sports indefinitely. Heavy contact may damage your device or dislodge the wires.
Problems with your ICD due to electrical interference are rare. Still, take precautions with the following:
Security systems. After surgery, you'll receive a card that says you have an ICD. Show your card to airport personnel because the ICD may set off airport security alarms.
Also, hand-held metal detectors often contain a magnet that can interfere with your ICD. Limit scanning with a hand-held detector to less than 30 seconds over the site of your ICD or make a request for a manual search.
Devices that pose little or no risk to your ICD include microwave ovens, televisions and remote controls, AM/FM radios, toasters, electric blankets, electric shavers and electric drills, computers, scanners, printers, and GPS devices.
If you have an ICD to treat ventricular arrhythmia, driving a vehicle presents a challenge. The combination of arrhythmia and shocks from your ICD can cause fainting, which would be dangerous while you're driving.
The American Heart Association's guidelines discourage driving during the first six months after your procedure if your ICD was implanted due to a previous cardiac arrest or ventricular arrhythmia.
If you have no shocks during this period, you'll likely be able to drive again. But if you then have a shock, with or without fainting, tell your doctor and follow his or her recommendations. In most cases, you'll be discouraged from driving until you've been shock-free for another six months.
If you have an ICD but have no history of life-threatening arrhythmias, you can usually resume driving within a week after your procedure if you've had no shocks. Discuss your situation with your doctor.
You usually can't get a commercial driver's license if you have an ICD.
The lithium battery in your ICD can last up to seven years. The battery will be checked during regular checkups, which should occur about every six months. When the battery is nearly out of power, your old shock generator is replaced with a new one during a minor outpatient procedure.
If you have an ICD and become terminally ill, your ICD will still deliver shocks if it isn't deactivated. Turning off your ICD is an easy procedure, and doing so won't immediately cause your heart to stop. But turning off the device can prevent unwanted shocks and unnecessary suffering.
Talk to your doctor about your wishes. Also talk to family members or another person designated to make medical decisions for you about what you'd like to do in end-of-life care situations.