Heart Failure: Should I Get an Implantable Cardioverter-Defibrillator (ICD)?
Heart Failure: Should I Get an Implantable Cardioverter-Defibrillator (ICD)?Skip to the navigationYou may want to have a say in this decision, or you may simply want to follow your doctor's recommendation. Either way, this information will help you understand what your choices are so that you can talk to your doctor about them. Heart Failure: Should I Get an Implantable Cardioverter-Defibrillator (ICD)?Get the factsYour options- Get an ICD.
- Don't get an
ICD.
An ICD is often placed in people who have survived an
abnormal heart rhythm that could cause sudden death. This decision aid focuses
on whether to get an ICD if you have not had a heart
rhythm that could be deadly but are at risk for one. Key points to remember- Your doctor may suggest an ICD if you are at
risk of having an abnormal heart rhythm that could cause sudden death. Tests
can show if you are at risk.
- Many medical facts play a role in
whether you should get an ICD. For example, the amount of blood your heart
pumps (ejection fraction) helps your doctor decide if an ICD is right for you.
Your doctor also will consider other health problems you may
have.
- The shock from an ICD hurts briefly. It's been described as
feeling like a punch in the chest. But the shock is a sign that the ICD is
doing its job to keep your heart beating. The ICD also can use painless
electrical pulses to fix a heart rate that is too fast or too
slow.
- Your doctor may also advise you to take medicine to reduce
your chance of having a deadly abnormal heart rhythm.
FAQs When you
have heart failure, the lower
chambers of your heart (the ventricles) aren't able to pump as much oxygen-rich
blood as the body needs. Some people who have heart failure also may have
abnormal heart rhythms that can cause sudden death. The heart may
beat so fast that the ventricles don't have time to fill with blood. This type
of abnormal rhythm is called ventricular tachycardia (say "ven-TRICK-yuh-ler
tack-ih-KAR-dee-uh"). Sometimes the heart quivers, or flutters, and stops
pumping blood. This is called ventricular fibrillation (say "ven-TRICK-yuh-ler
fib-ruh-LAY-shun"). If these abnormal rhythms are not fixed right away, the
person may die. An
implantable cardioverter-defibrillator (ICD) is a
battery-powered device that can fix an abnormal heart rhythm and prevent sudden
death. The ICD is placed under the skin of your chest. It's attached to one or two wires
(called leads). Most of the time, these leads go into the heart through a vein. An ICD is always checking your heart rate and rhythm. If the ICD detects a life-threatening rapid heart rhythm, it tries to slow the rhythm to get it back to normal. If the dangerous rhythm does not stop, the ICD sends an electric shock to the heart to restore a normal rhythm. The device then goes back to its watchful mode. An ICD also can fix a heart rate that is too fast or too
slow without using a shock. It can send out electrical pulses to speed up a
heart rate that is too slow. Or it can slow down a fast heart rate by matching
the pace and bringing the heart rate back to normal. Before putting
the ICD in your chest, your doctor will program it to send electrical pulses or
a shock when needed. Whether you get pulses or a shock depends on the type of
problem that you have and how the doctor programs the ICD to respond to
it. In some people who have heart failure, the ventricles don't
beat at the same time. If these people also have a risk for abnormal heart
rhythms, they may get a device that combines an ICD and a biventricular (say
"by-ven-TRICK-yuh-ler") pacemaker. This pacemaker is also called cardiac resynchronization therapy (CRT). This type of pacemaker uses electrical
pulses to make the ventricles pump at the same time. The ICD part of the device
can give a shock to fix an abnormal heart rhythm. Your doctor will put the ICD
in your chest during minor surgery. You will not have open-chest surgery. You
probably will have
local anesthesia. This means that you will be awake
but feel no pain. You also will likely have medicine to make you feel relaxed
and sleepy. Your doctor makes a small cut (incision) in your upper
chest. Your doctor puts the ICD leads through the cut. Most of the time, the leads go into a large blood vessel in the upper chest. Then your doctor guides the leads through the blood vessel into the heart. Your doctor places the ICD under the skin of your chest. He or she attaches the leads to the ICD. Then the cut will be closed with stitches.
Your doctor also programs the ICD. In
some cases, the doctor may be able to put the ICD in another place in the chest
so that you don't have a scar on your upper chest. This would allow you to wear
clothing with a lower neckline and still keep the scar covered. Most people spend the night in the hospital, just to make sure that the
device is working and that there are no problems from the surgery. You may be able to see a little bump under the skin where the ICD is
placed. The
shock from an ICD hurts briefly. It's been described as feeling like a punch in
the chest. But the shock is a sign that the ICD is doing its job to keep your
heart beating. You won't feel any pain if the ICD uses electrical pulses to fix
a heart rate that is too fast or too slow. There's no way to know
how often a shock might occur. It might never happen. It's possible
that the ICD could shock your heart when it shouldn't. If that were to happen,
you would have pain. The shock could make you fall out of bed, and that could
injure you. You also might be afraid or worried about when the ICD might shock
you again. In rare cases, the shock could cause ventricular
fibrillation. If this happened, the ICD would shock your heart again to stop
the abnormal rhythm. Many people say that they have a good quality
of life with an ICD. But shocks-and the fear of shocks-can make some people
worry too much. They may be afraid all the time that the ICD might shock them.
This worry can reduce a person's quality of life. An ICD often is placed in
people with heart failure who have survived a dangerous abnormal rhythm. The
ICD would protect them if they get another abnormal heart rhythm. But it also may be offered to people with heart failure who haven't had
an abnormal heart rhythm but are at risk for one. You will have
tests to see whether you are at risk for abnormal heart rhythms. These may
include an
electrocardiogram (EKG, ECG), an
echocardiogram, or an
electrophysiology study. Your doctor will
use these test results and your medical history to figure out if an ICD could
help you. Your doctor also will rely on guidelines that help find out who might
benefit from an ICD.footnote 1, footnote 2 These guidelines will likely
change often, because experts are doing new research and creating new
technology. You and your doctor can work together to decide whether you want to
get an ICD. Many medical facts play a role in whether you should
get an ICD. Your doctor will look at whether: - You're taking medicine to treat heart failure
and to prevent abnormal heart rhythms.
- You're expected to live more
than 1 year.
- Your
ejection fraction is lower than
normal.
- You have passed out from previous abnormal heart
rhythms.
- You have had a
heart attack.
- You have
class II or III heart failure. This means that you have some trouble doing everyday activities because of your heart failure symptoms.
Talk with your doctor about the possibility of turning off the ICD at the end of life. Many people consider turning off the ICD when their health goals change from living longer to getting the most comfort possible at the end of life. Turning off your ICD is legal. It isn't considered suicide. The decision to leave on or turn off your ICD is a medical decision that you make based on your values. Sometimes an ICD is
not recommended.footnote 2 You and your doctor may decide against
an ICD if any of the following apply to you: - You're expected to live less than 1
year.
- You have frequent abnormal heart rhythms (ventricular
tachycardia) that can't be controlled with medicines. An ICD would shock you
repeatedly.
- You have
class IV heart failure and heart transplant surgery
is not an option. People who have class IV heart failure can't do any physical
activity without symptoms. An ICD probably wouldn't help you live
longer.
- You have an abnormal heart rhythm that can be fixed with
catheter ablation. This is a procedure that destroys
some heart tissue where the abnormal rhythm starts.
Based on personal feelings, some people decide not to get an ICD. For example, they might worry a lot about getting a shock, they may not want to have the surgery to implant the ICD, or they don't want to have a device inside of them. An ICD can prevent sudden death from an abnormal heart rhythm. ICDs may also help people who have heart
failure live longer.footnote 3
How much an ICD might help you depends on a few things, including your overall health. - ICDs can help lower the risk of dying suddenly from a heart problem. In studies, ICDs lowered the number of people who died because of a heart problem from about 16 out of 100 people to about 7 out of 100 people.footnote 4
- ICDs might also help lower the risk of death from causes other than sudden cardiac death. In studies, ICDs lowered the number of people who died from any reason from about 30 out of 100 to about 20 out of 100.footnote 4
- An ICD combined with a pacemaker (cardiac resynchronization therapy, or CRT) can also help people live longer and stay out of the hospital.footnote 5
There are several
risks to getting an ICD. But the risks are different for each person. The risk for problems associated with the implant procedure might be higher for people who are 80 years or older. The risks also depend on the type of ICD that you get. During the procedure. If problems happen during the procedure, doctors likely can fix them right away. - Serious bleeding could occur after placement of the ICD.
This happens from 1 to 6 times out of 100. Serious bleeding doesn't happen 94
to 99 times out of 100.footnote 4, footnote 6
- A lung could
collapse (pneumothorax) from a buildup of air in the space between the lung and
the chest wall. But a pneumothorax can be treated and people recover well. This happens less than 1 time out of 100. This doesn't happen 99
times out of 100.footnote 6
- In the hospital, serious problems, such as heart injury or stroke, happen less than 1 time out of 100. Serious problems don't happen 99 times out of 100.footnote 3
After the procedure. Problems after the procedure can be minor, like mild pain, or serious, like an infection. But your doctor can solve most of these problems. And most people do not have long-term problems. - Pain, bleeding, or bruising soon after the procedure.
- The leads that attach to the heart may break or
stop working right. This can happen between 2 and 15 times out of 100 after 5
years of having the ICD. So it does not happen about 85 to 98 times out of
100.footnote 4, footnote 7 But the risk of a lead
breaking or not working right appears to increase over time. One long-term
study found that, after 10 years, 20 out of 100 leads had problems. This also
means that 80 out of 100 leads didn't have problems.footnote 8
If a lead does break or does not work anymore, you would need surgery. The
surgery would be more complex than that needed to replace an ICD
battery.
- You could get an infection where the ICD is
placed. This happens about 1 to 2 times out of 100. So there is no infection about 98 to 99 times out of 100.footnote 9
- The ICD could shock the heart when it shouldn't. There is
no way to know if or when this could happen. It might never happen. In studies, these shocks happened to 3 to 21 out of 100 people over 1 to 5 years. This means that these shocks didn't happen in 79 to 97 people out of 100.footnote 3 Your doctor will program your ICD to lower the risk of one of these shocks.
- There also is a chance that a manufacturer may recall an ICD for a
problem. If this were to happen, you might need surgery to take out the ICD and
leads.
Daily precautions. Some
activities and situations can interrupt the signals sent by the ICD to
the heart. You may need to adapt some of your activities. If you have an ICD, follow your doctor's
specific instructions about care and precautions. You will need regular monitoring and checkups with your doctor to make sure that the ICD
is working. It's important to keep taking your medicines for heart
failure. You'll also need to follow a healthy lifestyle to treat heart failure.
This may include watching how much fluid you drink, eating healthy foods that
are low in salt, and not smoking. If the ICD gives you a lot of
shocks, your doctor may prescribe the rhythm-control medicine amiodarone. This medicine helps prevent
abnormal heart rhythms and may keep the ICD from sending shocks too often. Your
doctor also could suggest catheter ablation to lower the number of times the
ICD shocks you. Catheter ablation can lower the chance of some abnormal heart rhythms, such as atrial fibrillation or ventricular tachycardia. These rhythms can cause the ICD to shock you. ICDs run on a battery that lasts from 5 to 8 years. To
replace the battery, you will need minor surgery. If you get an
ICD, you have to be careful not to get too close to some devices with strong
magnetic or electrical fields. These include
MRI machines (unless your ICD is safe for an MRI), battery-powered cordless power tools,
and CB or ham radios. But most everyday appliances are safe. Compare your options | |
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What is usually involved? |
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What are the benefits? |
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What are the risks and side effects? |
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Get an ICDGet an ICD- Your doctor will numb the area with
local anesthesia.
- You probably will spend
the night in the hospital, just to make sure that there are no
problems.
- You would need to have minor surgery to replace the
battery after 5 to 8 years.
- You keep taking your heart failure
medicine and following a healthy lifestyle.
- An ICD may lower the risk of sudden
death in people who have heart failure.
- An ICD can fix a heart rate that is too fast or
too slow without using a shock.
- You may have peace of mind that a
dangerous heart rhythm could be fixed right away.
- Problems can happen during or soon after the procedure to place the ICD. Examples include a lead tearing the heart or a lung collapsing.
- The manufacturer could recall an ICD for a
problem. If this were to happen, you might need surgery to take out the ICD and
leads.
- The shock from an ICD hurts briefly.
- If the ICD gives you too many shocks, you also may need to
take a rhythm-control medicine or have catheter ablation.
Don't get an
ICDDon't get an
ICD- You keep taking your heart
failure medicine and following a healthy lifestyle.
- You may take a rhythm-control medicine to prevent
abnormal heart rhythms.
- You avoid the risks of
surgery.
- You won't worry about when the ICD might shock you.
- You could have an
abnormal heart rhythm that could cause sudden death.
I have class
II heart failure. I have some shortness of breath when I go for walks. My
doctor said that I could have a risk of a really bad heart rhythm that could
make my heart stop. We talked about an ICD. I'm a little nervous about getting
shocked. But if it could save my life, it's worth it, so I'm going to get one.
I've had heart failure for a while now. My
ejection fraction is 40%. It's not great. But my doctor says it's not low
enough for me to think about getting an ICD. I'm taking my heart failure
medicine, eating a low-salt diet, and doing everything my doctor says to do. If
my ejection fraction gets lower, I will think about getting an ICD.
About 6 months ago I had a heart attack. It
affected my heart's ability to pump. So I have heart failure. I've had some
trouble just going shopping and taking walks. My doctor and I agreed that I
should get an ICD. The type I'm going to get combines a pacemaker for heart
failure and an ICD. My doctor said I could get an ICD. We talked about how it could help me. But I don't want a device like that inside my body. So I'm not going to get one. What matters most to you?
Your personal feelings are just as important as the medical facts. Think about what matters most to you in this decision, and show how you feel about the following statements.
Reasons to get an ICD Reasons not to get an ICD I want to do everything I can to prevent a deadly heart rhythm. I would rather use only medicine to lower my chance of a deadly heart rhythm. More important Equally important More important I'm not worried that the ICD might shock me. I would worry all the time that the ICD might shock me. More important Equally important More important I don't mind having a device inside my body. I don't like the idea of having a device inside my body. More important Equally important More important I'm not worried about the small risks of surgery. I'm concerned that something could go wrong with the surgery. More important Equally important More important I'm not concerned that the ICD or the leads could break. I'm concerned that the ICD or leads will break and I'll need another surgery. More important Equally important More important My other important reasons: My other important reasons: More important Equally important More important Where are you leaning now?
Now that you've thought about the facts and your feelings, you may have a general idea of where you stand on this decision. Show which way you are leaning right now.
Getting an ICD NOT getting an ICD Leaning toward Undecided Leaning toward What else do you need to make your decision?1.
How sure do you feel right now about your decision? Not sure at all Somewhat sure Very sure Your SummaryHere's a record of your answers. You can use it to talk with your doctor or loved ones about your decision. Next stepsWhich way you're leaningHow sure you areYour commentsKey concepts that you understoodKey concepts that may need reviewCredits Author | Healthwise Staff |
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Primary Medical Reviewer | Rakesh K. Pai, MD, FACC - Cardiology, Electrophysiology |
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Primary Medical Reviewer | Martin J. Gabica, MD - Family Medicine |
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Primary Medical Reviewer | E. Gregory Thompson, MD - Internal Medicine |
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Primary Medical Reviewer | Elizabeth T. Russo, MD - Internal Medicine |
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Specialist Medical Reviewer | John M. Miller, MD, FACC - Cardiology, Electrophysiology |
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References Citations - Epstein AE, et al. (2008). ACC/AHA/HRS 2008 Guidelines for Device-Based Therapy of Cardiac Rhythm Abnormalities: A Report of the American College of Cardiology/American Heart Association Task Force on Practice Guidelines (Writing Committee to Revise the ACC/AHA/NASPE 2002 Guideline Update for Implantation of Cardiac Pacemakers and Antiarrhythmia Devices): Developed in Collaboration With the American Association for Thoracic Surgery and Society of Thoracic Surgeons. Circulation, 117(21): e350-e408. [Correction in Circulation, 120(5): e34-e35.]
- Yancy CW, et al. (2013). 2013 ACCF/AHA Guideline for the management of heart failure: A report of the American College of Cardiology Foundation/American Heart Association Task Force on Practice Guidelines. Journal of the American College of Cardiology, 62(16): e147-e239.
- Uhlig K, et al. (2013). Assessment on implantable defibrillators and the evidence for primary prevention of sudden cardiac death. Technology Assessment Project ID: CRDT0511. Rockville, MD: Agency for Healthcare Research and Quality. http://www.cms.gov/Medicare/Coverage/DeterminationProcess/Downloads/id91TA.pdf. Accessed December 5, 2013.
- McKelvie R (2011). Heart failure, search date August 2010. BMJ Clinical Evidence. Available online: http://www.clinicalevidence.com.
- Tang ASL, et al. (2010). Cardiac-resynchronization therapy for mild-to-moderate heart failure. New England Journal of Medicine, 363(25): 2385-2395.
- Van Rees JB, et al. (2011). Implantation-related complications of implantable cardioverter-defibrillators and cardiac resynchronization therapy devices. Journal of the American College of Cardiology, 58(10): 995-1000.
- Eckstein JE, et al. (2008). Necessity for surgical revision of defibrillator leads implanted long-term. Circulation, 117(21): 2727-2733.
- Kleemann T, et al. (2007). Annual rate of transvenous defibrillation lead defects in implantable cardioverter-defibrillators over a period of >10 years. Circulation, 115(19): 2474-2480.
- Baddour LM, et al. (2010). Update on cardiovascular implantable electronic device infections and their management. A scientific statement from the American Heart Association. Circulation, 121(3): 458-477.
Other Works Consulted - Abraham WT, Hasan A (2011). Diagnosis and management of heart failure. In V Fuster et al., eds., Hurst's The Heart, 13th ed., vol. 1, pp. 748-780. New York: McGraw-Hill.
- Kalahasty G, Ellenbogen KA (2011). Management of the patient with implantable cardioverter-defibrillator lead failure. Circulation, 123(12): 1352-1354.
- Lampert R, et al. (2010). HRS Expert Consensus Statement on the Management of Cardiovascular Implantable Electronic Devices (CIEDs) in patients nearing end of life or requesting withdrawal of therapy. Heart Rhythm, 7(7): 1008-1026. Available online: http://www.hrsonline.org/Policy/ClinicalGuidelines/upload/ceids_mgmt_eol.pdf.
You may want to have a say in this decision, or you may simply want to follow your doctor's recommendation. Either way, this information will help you understand what your choices are so that you can talk to your doctor about them. Heart Failure: Should I Get an Implantable Cardioverter-Defibrillator (ICD)?Here's a record of your answers. You can use it to talk with your doctor or loved ones about your decision. - Get the facts
- Compare your options
- What matters most to you?
- Where are you leaning now?
- What else do you need to make your decision?
1. Get the FactsYour options- Get an ICD.
- Don't get an
ICD.
An ICD is often placed in people who have survived an
abnormal heart rhythm that could cause sudden death. This decision aid focuses
on whether to get an ICD if you have not had a heart
rhythm that could be deadly but are at risk for one. Key points to remember- Your doctor may suggest an ICD if you are at
risk of having an abnormal heart rhythm that could cause sudden death. Tests
can show if you are at risk.
- Many medical facts play a role in
whether you should get an ICD. For example, the amount of blood your heart
pumps (ejection fraction) helps your doctor decide if an ICD is right for you.
Your doctor also will consider other health problems you may
have.
- The shock from an ICD hurts briefly. It's been described as
feeling like a punch in the chest. But the shock is a sign that the ICD is
doing its job to keep your heart beating. The ICD also can use painless
electrical pulses to fix a heart rate that is too fast or too
slow.
- Your doctor may also advise you to take medicine to reduce
your chance of having a deadly abnormal heart rhythm.
FAQs How can heart failure affect heart rhythm?When you
have heart failure, the lower
chambers of your heart (the ventricles) aren't able to pump as much oxygen-rich
blood as the body needs. Some people who have heart failure also may have
abnormal heart rhythms that can cause sudden death. The heart may
beat so fast that the ventricles don't have time to fill with blood. This type
of abnormal rhythm is called ventricular tachycardia (say "ven-TRICK-yuh-ler
tack-ih-KAR-dee-uh"). Sometimes the heart quivers, or flutters, and stops
pumping blood. This is called ventricular fibrillation (say "ven-TRICK-yuh-ler
fib-ruh-LAY-shun"). If these abnormal rhythms are not fixed right away, the
person may die. How can an ICD help?An
implantable cardioverter-defibrillator (ICD) is a
battery-powered device that can fix an abnormal heart rhythm and prevent sudden
death. The ICD is placed under the skin of your chest. It's attached to one or two wires
(called leads). Most of the time, these leads go into the heart through a vein. An ICD is always checking your heart rate and rhythm. If the ICD detects a life-threatening rapid heart rhythm, it tries to slow the rhythm to get it back to normal. If the dangerous rhythm does not stop, the ICD sends an electric shock to the heart to restore a normal rhythm. The device then goes back to its watchful mode. An ICD also can fix a heart rate that is too fast or too
slow without using a shock. It can send out electrical pulses to speed up a
heart rate that is too slow. Or it can slow down a fast heart rate by matching
the pace and bringing the heart rate back to normal. Before putting
the ICD in your chest, your doctor will program it to send electrical pulses or
a shock when needed. Whether you get pulses or a shock depends on the type of
problem that you have and how the doctor programs the ICD to respond to
it. In some people who have heart failure, the ventricles don't
beat at the same time. If these people also have a risk for abnormal heart
rhythms, they may get a device that combines an ICD and a biventricular (say
"by-ven-TRICK-yuh-ler") pacemaker. This pacemaker is also called cardiac resynchronization therapy (CRT). This type of pacemaker uses electrical
pulses to make the ventricles pump at the same time. The ICD part of the device
can give a shock to fix an abnormal heart rhythm. How is the ICD placed?Your doctor will put the ICD
in your chest during minor surgery. You will not have open-chest surgery. You
probably will have
local anesthesia. This means that you will be awake
but feel no pain. You also will likely have medicine to make you feel relaxed
and sleepy. Your doctor makes a small cut (incision) in your upper
chest. Your doctor puts the ICD leads through the cut. Most of the time, the leads go into a large blood vessel in the upper chest. Then your doctor guides the leads through the blood vessel into the heart. Your doctor places the ICD under the skin of your chest. He or she attaches the leads to the ICD. Then the cut will be closed with stitches.
Your doctor also programs the ICD. In
some cases, the doctor may be able to put the ICD in another place in the chest
so that you don't have a scar on your upper chest. This would allow you to wear
clothing with a lower neckline and still keep the scar covered. Most people spend the night in the hospital, just to make sure that the
device is working and that there are no problems from the surgery. You may be able to see a little bump under the skin where the ICD is
placed. How does it feel to get a shock from an ICD?The
shock from an ICD hurts briefly. It's been described as feeling like a punch in
the chest. But the shock is a sign that the ICD is doing its job to keep your
heart beating. You won't feel any pain if the ICD uses electrical pulses to fix
a heart rate that is too fast or too slow. There's no way to know
how often a shock might occur. It might never happen. It's possible
that the ICD could shock your heart when it shouldn't. If that were to happen,
you would have pain. The shock could make you fall out of bed, and that could
injure you. You also might be afraid or worried about when the ICD might shock
you again. In rare cases, the shock could cause ventricular
fibrillation. If this happened, the ICD would shock your heart again to stop
the abnormal rhythm. Many people say that they have a good quality
of life with an ICD. But shocks-and the fear of shocks-can make some people
worry too much. They may be afraid all the time that the ICD might shock them.
This worry can reduce a person's quality of life. Who might want an ICD?An ICD often is placed in
people with heart failure who have survived a dangerous abnormal rhythm. The
ICD would protect them if they get another abnormal heart rhythm. But it also may be offered to people with heart failure who haven't had
an abnormal heart rhythm but are at risk for one. You will have
tests to see whether you are at risk for abnormal heart rhythms. These may
include an
electrocardiogram (EKG, ECG), an
echocardiogram, or an
electrophysiology study. Your doctor will
use these test results and your medical history to figure out if an ICD could
help you. Your doctor also will rely on guidelines that help find out who might
benefit from an ICD.1, 2 These guidelines will likely
change often, because experts are doing new research and creating new
technology. You and your doctor can work together to decide whether you want to
get an ICD. Many medical facts play a role in whether you should
get an ICD. Your doctor will look at whether: - You're taking medicine to treat heart failure
and to prevent abnormal heart rhythms.
- You're expected to live more
than 1 year.
- Your
ejection fraction is lower than
normal.
- You have passed out from previous abnormal heart
rhythms.
- You have had a
heart attack.
- You have
class II or III heart failure. This means that you have some trouble doing everyday activities because of your heart failure symptoms.
Talk with your doctor about the possibility of turning off the ICD at the end of life. Many people consider turning off the ICD when their health goals change from living longer to getting the most comfort possible at the end of life. Turning off your ICD is legal. It isn't considered suicide. The decision to leave on or turn off your ICD is a medical decision that you make based on your values. Who might not want an ICD?Sometimes an ICD is
not recommended.2 You and your doctor may decide against
an ICD if any of the following apply to you: - You're expected to live less than 1
year.
- You have frequent abnormal heart rhythms (ventricular
tachycardia) that can't be controlled with medicines. An ICD would shock you
repeatedly.
- You have
class IV heart failure and heart transplant surgery
is not an option. People who have class IV heart failure can't do any physical
activity without symptoms. An ICD probably wouldn't help you live
longer.
- You have an abnormal heart rhythm that can be fixed with
catheter ablation. This is a procedure that destroys
some heart tissue where the abnormal rhythm starts.
Based on personal feelings, some people decide not to get an ICD. For example, they might worry a lot about getting a shock, they may not want to have the surgery to implant the ICD, or they don't want to have a device inside of them. What are the benefits of an ICD?An ICD can prevent sudden death from an abnormal heart rhythm. ICDs may also help people who have heart
failure live longer.3
How much an ICD might help you depends on a few things, including your overall health. - ICDs can help lower the risk of dying suddenly from a heart problem. In studies, ICDs lowered the number of people who died because of a heart problem from about 16 out of 100 people to about 7 out of 100 people.4
- ICDs might also help lower the risk of death from causes other than sudden cardiac death. In studies, ICDs lowered the number of people who died from any reason from about 30 out of 100 to about 20 out of 100.4
- An ICD combined with a pacemaker (cardiac resynchronization therapy, or CRT) can also help people live longer and stay out of the hospital.5
What are the risks of an ICD?There are several
risks to getting an ICD. But the risks are different for each person. The risk for problems associated with the implant procedure might be higher for people who are 80 years or older. The risks also depend on the type of ICD that you get. During the procedure. If problems happen during the procedure, doctors likely can fix them right away. - Serious bleeding could occur after placement of the ICD.
This happens from 1 to 6 times out of 100. Serious bleeding doesn't happen 94
to 99 times out of 100.4, 6
- A lung could
collapse (pneumothorax) from a buildup of air in the space between the lung and
the chest wall. But a pneumothorax can be treated and people recover well. This happens less than 1 time out of 100. This doesn't happen 99
times out of 100.6
- In the hospital, serious problems, such as heart injury or stroke, happen less than 1 time out of 100. Serious problems don't happen 99 times out of 100.3
After the procedure. Problems after the procedure can be minor, like mild pain, or serious, like an infection. But your doctor can solve most of these problems. And most people do not have long-term problems. - Pain, bleeding, or bruising soon after the procedure.
- The leads that attach to the heart may break or
stop working right. This can happen between 2 and 15 times out of 100 after 5
years of having the ICD. So it does not happen about 85 to 98 times out of
100.4, 7 But the risk of a lead
breaking or not working right appears to increase over time. One long-term
study found that, after 10 years, 20 out of 100 leads had problems. This also
means that 80 out of 100 leads didn't have problems.8
If a lead does break or does not work anymore, you would need surgery. The
surgery would be more complex than that needed to replace an ICD
battery.
- You could get an infection where the ICD is
placed. This happens about 1 to 2 times out of 100. So there is no infection about 98 to 99 times out of 100.9
- The ICD could shock the heart when it shouldn't. There is
no way to know if or when this could happen. It might never happen. In studies, these shocks happened to 3 to 21 out of 100 people over 1 to 5 years. This means that these shocks didn't happen in 79 to 97 people out of 100.3 Your doctor will program your ICD to lower the risk of one of these shocks.
- There also is a chance that a manufacturer may recall an ICD for a
problem. If this were to happen, you might need surgery to take out the ICD and
leads.
Daily precautions. Some
activities and situations can interrupt the signals sent by the ICD to
the heart. You may need to adapt some of your activities. If you have an ICD, follow your doctor's
specific instructions about care and precautions. What follow-up do you need after getting an ICD?You will need regular monitoring and checkups with your doctor to make sure that the ICD
is working. It's important to keep taking your medicines for heart
failure. You'll also need to follow a healthy lifestyle to treat heart failure.
This may include watching how much fluid you drink, eating healthy foods that
are low in salt, and not smoking. If the ICD gives you a lot of
shocks, your doctor may prescribe the rhythm-control medicine amiodarone. This medicine helps prevent
abnormal heart rhythms and may keep the ICD from sending shocks too often. Your
doctor also could suggest catheter ablation to lower the number of times the
ICD shocks you. Catheter ablation can lower the chance of some abnormal heart rhythms, such as atrial fibrillation or ventricular tachycardia. These rhythms can cause the ICD to shock you. ICDs run on a battery that lasts from 5 to 8 years. To
replace the battery, you will need minor surgery. If you get an
ICD, you have to be careful not to get too close to some devices with strong
magnetic or electrical fields. These include
MRI machines (unless your ICD is safe for an MRI), battery-powered cordless power tools,
and CB or ham radios. But most everyday appliances are safe. 2. Compare your options | Get an ICD | Don't get an
ICD |
---|
What is usually involved? | - Your doctor will numb the area with
local anesthesia.
- You probably will spend
the night in the hospital, just to make sure that there are no
problems.
- You would need to have minor surgery to replace the
battery after 5 to 8 years.
- You keep taking your heart failure
medicine and following a healthy lifestyle.
| - You keep taking your heart
failure medicine and following a healthy lifestyle.
- You may take a rhythm-control medicine to prevent
abnormal heart rhythms.
|
---|
What are the benefits? | - An ICD may lower the risk of sudden
death in people who have heart failure.
- An ICD can fix a heart rate that is too fast or
too slow without using a shock.
- You may have peace of mind that a
dangerous heart rhythm could be fixed right away.
| - You avoid the risks of
surgery.
- You won't worry about when the ICD might shock you.
|
---|
What are the risks and side effects? | - Problems can happen during or soon after the procedure to place the ICD. Examples include a lead tearing the heart or a lung collapsing.
- The manufacturer could recall an ICD for a
problem. If this were to happen, you might need surgery to take out the ICD and
leads.
- The shock from an ICD hurts briefly.
- If the ICD gives you too many shocks, you also may need to
take a rhythm-control medicine or have catheter ablation.
| - You could have an
abnormal heart rhythm that could cause sudden death.
|
---|
Personal storiesPersonal stories about getting an ICD for heart failure
These stories are based on information gathered from health professionals and consumers. They may be helpful as you make important health decisions.
"I have class II heart failure. I have some shortness of breath when I go for walks. My doctor said that I could have a risk of a really bad heart rhythm that could make my heart stop. We talked about an ICD. I'm a little nervous about getting shocked. But if it could save my life, it's worth it, so I'm going to get one." "I've had heart failure for a while now. My ejection fraction is 40%. It's not great. But my doctor says it's not low enough for me to think about getting an ICD. I'm taking my heart failure medicine, eating a low-salt diet, and doing everything my doctor says to do. If my ejection fraction gets lower, I will think about getting an ICD." "About 6 months ago I had a heart attack. It affected my heart's ability to pump. So I have heart failure. I've had some trouble just going shopping and taking walks. My doctor and I agreed that I should get an ICD. The type I'm going to get combines a pacemaker for heart failure and an ICD." "My doctor said I could get an ICD. We talked about how it could help me. But I don't want a device like that inside my body. So I'm not going to get one." 3. What matters most to you?
Your personal feelings are just as important as the medical facts. Think about what matters most to you in this decision, and show how you feel about the following statements.
Reasons to get an ICD Reasons not to get an ICD I want to do everything I can to prevent a deadly heart rhythm. I would rather use only medicine to lower my chance of a deadly heart rhythm. More important Equally important More important I'm not worried that the ICD might shock me. I would worry all the time that the ICD might shock me. More important Equally important More important I don't mind having a device inside my body. I don't like the idea of having a device inside my body. More important Equally important More important I'm not worried about the small risks of surgery. I'm concerned that something could go wrong with the surgery. More important Equally important More important I'm not concerned that the ICD or the leads could break. I'm concerned that the ICD or leads will break and I'll need another surgery. More important Equally important More important My other important reasons: My other important reasons: More important Equally important More important 4. Where are you leaning now?
Now that you've thought about the facts and your feelings, you may have a general idea of where you stand on this decision. Show which way you are leaning right now.
Getting an ICD NOT getting an ICD Leaning toward Undecided Leaning toward 5. What else do you need to make your decision?
Check the facts
1.
I need to have an ICD if I have heart failure. You're right. Not everyone who has heart failure needs an ICD. Your doctor may suggest an ICD if you are at risk of having an abnormal heart rhythm that could cause sudden death. 2.
I'll feel a painful shock if an ICD fixes a heart rhythm that could cause sudden death. You're right. The shock from an ICD hurts briefly. But the shock is a sign that a possibly deadly heart rhythm has been fixed. An ICD also can use painless pulses to fix a fast or slow heart rate. 3.
I might need surgery again someday if the ICD breaks or if it needs a new battery. That's right. The ICD or the wires that attach to it could break. If that happens, you might need surgery to fix the problem. You also will need surgery to replace the battery, which lasts 5 to 8 years. Decide what's next1.
Do you understand the options available to you? 2.
Are you clear about which benefits and side effects matter most to you? 3.
Do you have enough support and advice from others to make a choice? Certainty1.
How sure do you feel right now about your decision? Not sure at all Somewhat sure Very sure 2.
Check what you need to do before you make this decision. Credits By | Healthwise Staff |
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Primary Medical Reviewer | Rakesh K. Pai, MD, FACC - Cardiology, Electrophysiology |
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Primary Medical Reviewer | Martin J. Gabica, MD - Family Medicine |
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Primary Medical Reviewer | E. Gregory Thompson, MD - Internal Medicine |
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Primary Medical Reviewer | Elizabeth T. Russo, MD - Internal Medicine |
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Specialist Medical Reviewer | John M. Miller, MD, FACC - Cardiology, Electrophysiology |
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References Citations - Epstein AE, et al. (2008). ACC/AHA/HRS 2008 Guidelines for Device-Based Therapy of Cardiac Rhythm Abnormalities: A Report of the American College of Cardiology/American Heart Association Task Force on Practice Guidelines (Writing Committee to Revise the ACC/AHA/NASPE 2002 Guideline Update for Implantation of Cardiac Pacemakers and Antiarrhythmia Devices): Developed in Collaboration With the American Association for Thoracic Surgery and Society of Thoracic Surgeons. Circulation, 117(21): e350-e408. [Correction in Circulation, 120(5): e34-e35.]
- Yancy CW, et al. (2013). 2013 ACCF/AHA Guideline for the management of heart failure: A report of the American College of Cardiology Foundation/American Heart Association Task Force on Practice Guidelines. Journal of the American College of Cardiology, 62(16): e147-e239.
- Uhlig K, et al. (2013). Assessment on implantable defibrillators and the evidence for primary prevention of sudden cardiac death. Technology Assessment Project ID: CRDT0511. Rockville, MD: Agency for Healthcare Research and Quality. http://www.cms.gov/Medicare/Coverage/DeterminationProcess/Downloads/id91TA.pdf. Accessed December 5, 2013.
- McKelvie R (2011). Heart failure, search date August 2010. BMJ Clinical Evidence. Available online: http://www.clinicalevidence.com.
- Tang ASL, et al. (2010). Cardiac-resynchronization therapy for mild-to-moderate heart failure. New England Journal of Medicine, 363(25): 2385-2395.
- Van Rees JB, et al. (2011). Implantation-related complications of implantable cardioverter-defibrillators and cardiac resynchronization therapy devices. Journal of the American College of Cardiology, 58(10): 995-1000.
- Eckstein JE, et al. (2008). Necessity for surgical revision of defibrillator leads implanted long-term. Circulation, 117(21): 2727-2733.
- Kleemann T, et al. (2007). Annual rate of transvenous defibrillation lead defects in implantable cardioverter-defibrillators over a period of >10 years. Circulation, 115(19): 2474-2480.
- Baddour LM, et al. (2010). Update on cardiovascular implantable electronic device infections and their management. A scientific statement from the American Heart Association. Circulation, 121(3): 458-477.
Other Works Consulted - Abraham WT, Hasan A (2011). Diagnosis and management of heart failure. In V Fuster et al., eds., Hurst's The Heart, 13th ed., vol. 1, pp. 748-780. New York: McGraw-Hill.
- Kalahasty G, Ellenbogen KA (2011). Management of the patient with implantable cardioverter-defibrillator lead failure. Circulation, 123(12): 1352-1354.
- Lampert R, et al. (2010). HRS Expert Consensus Statement on the Management of Cardiovascular Implantable Electronic Devices (CIEDs) in patients nearing end of life or requesting withdrawal of therapy. Heart Rhythm, 7(7): 1008-1026. Available online: http://www.hrsonline.org/Policy/ClinicalGuidelines/upload/ceids_mgmt_eol.pdf.
Note: The "printer friendly" document will not contain all the information available in the online document some Information (e.g. cross-references to other topics, definitions or medical illustrations) is only available in the online version.Current as of:
May 9, 2017 Epstein AE, et al. (2008). ACC/AHA/HRS 2008 Guidelines for Device-Based Therapy of Cardiac Rhythm Abnormalities: A Report of the American College of Cardiology/American Heart Association Task Force on Practice Guidelines (Writing Committee to Revise the ACC/AHA/NASPE 2002 Guideline Update for Implantation of Cardiac Pacemakers and Antiarrhythmia Devices): Developed in Collaboration With the American Association for Thoracic Surgery and Society of Thoracic Surgeons. Circulation, 117(21): e350-e408. [Correction in Circulation, 120(5): e34-e35.] Yancy CW, et al. (2013). 2013 ACCF/AHA Guideline for the management of heart failure: A report of the American College of Cardiology Foundation/American Heart Association Task Force on Practice Guidelines. Journal of the American College of Cardiology, 62(16): e147-e239. Uhlig K, et al. (2013). Assessment on implantable defibrillators and the evidence for primary prevention of sudden cardiac death. Technology Assessment Project ID: CRDT0511. Rockville, MD: Agency for Healthcare Research and Quality. http://www.cms.gov/Medicare/Coverage/DeterminationProcess/Downloads/id91TA.pdf. Accessed December 5, 2013. McKelvie R (2011). Heart failure, search date August 2010. BMJ Clinical Evidence. Available online: http://www.clinicalevidence.com. Tang ASL, et al. (2010). Cardiac-resynchronization therapy for mild-to-moderate heart failure. New England Journal of Medicine, 363(25): 2385-2395. Van Rees JB, et al. (2011). Implantation-related complications of implantable cardioverter-defibrillators and cardiac resynchronization therapy devices. Journal of the American College of Cardiology, 58(10): 995-1000. Eckstein JE, et al. (2008). Necessity for surgical revision of defibrillator leads implanted long-term. Circulation, 117(21): 2727-2733. Kleemann T, et al. (2007). Annual rate of transvenous defibrillation lead defects in implantable cardioverter-defibrillators over a period of >10 years. Circulation, 115(19): 2474-2480. Baddour LM, et al. (2010). Update on cardiovascular implantable electronic device infections and their management. A scientific statement from the American Heart Association. Circulation, 121(3): 458-477. Last modified on: 8 September 2017
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