Heart Failure: Should I Get a Pacemaker (Cardiac Resynchronization Therapy)?
Heart Failure: Should I Get a Pacemaker (Cardiac Resynchronization Therapy)?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 a Pacemaker (Cardiac Resynchronization Therapy)?Get the factsYour options- Get a pacemaker for heart failure.
- Don't get a pacemaker for heart failure.
A pacemaker for heart failure is used for cardiac resynchronization therapy (CRT). This type of pacemaker is different from
pacemakers used to treat other heart rhythm problems, such as bradycardia. This topic is only about
pacemakers for heart failure. You might hear it only called cardiac resynchronization therapy, or CRT. Key points to remember- A pacemaker for heart failure, also called cardiac resynchronization therapy or CRT, can help you feel better so you
can do your daily activities.
- A pacemaker can slow down the progression of heart failure. It may help keep you out of the hospital and
help you live longer.
- If you get a pacemaker, you still need to
take medicines for heart failure. You'll also need to follow a healthy
lifestyle to help treat heart failure. This may include watching how much fluid
you drink, eating healthy foods that are low in salt, and not
smoking.
- Heart experts have guidelines about who might need a
pacemaker. Talk to your doctor about the reasons that you might need one. For
example, a pacemaker may be a good choice if you have moderate or severe heart
failure and your heart's
ventricles don't pump at the same time.
- A pacemaker sends electrical pulses to your heart to help it
work better. You can't feel the pulses.
- There can be problems from having a pacemaker placed in your
chest. The wires (called leads) that connect the pacemaker to your heart can
move from the spot where they were placed. You could get an infection where the
pacemaker was placed. Or the pacemaker or leads might not work.
FAQs When you
have
heart failure, the lower
chambers of your heart (the ventricles) aren't able to pump as much blood as your
body needs. Sometimes, the ventricles also don't pump at the same time. Cardiac
resynchronization therapy (CRT) uses a special type of pacemaker called a biventricular pacemaker (say "by-ven-TRICK-yuh-ler") to treat heart failure. This pacemaker sends
electrical pulses to make the ventricles pump at the same time. This can help the heart pump blood better. The pacemaker connects to three thin wires, called leads.
The leads go into different chambers of your heart. If there is a problem with
your heartbeat, the pacemaker sends a painless signal through the leads to fix
the problem. The pacemaker also can speed up your heart if it is beating too
slowly. In some cases, you may get a pacemaker for heart failure
that is combined with a device to shock your heartbeat back to a normal rhythm
if it is dangerously fast. The device is called an implantable
cardioverter-defibrillator, or ICD. It can prevent sudden death. Your doctor will put
the pacemaker 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. In some cases, the pacemaker can be placed lower in the chest. This
would allow you to wear clothing with a lower neckline and still keep the scar
covered. The doctor puts the leads in a vein and threads them to the heart. Then your doctor connects the leads to the pacemaker. Your doctor
puts the pacemaker in your chest and closes the
incision. Your doctor also programs the pacemaker. It can take about 2 to 3 hours to place the pacemaker. 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. But sometimes the procedure is done as an
outpatient procedure, which means you don't need to
stay overnight in the hospital. You may be able to see a little
bump under the skin where the pacemaker is placed. Whether a pacemaker for heart failure is right for you depends on many medical facts. Your doctor will check many things including:footnote 1, footnote 2 - How bad your symptoms are and if you have trouble doing everyday activities. Heart failure is grouped-or
classified-according to symptoms. Your doctor will probably talk about your heart failure "class" number, which
will be between I and IV.
- Your ejection fraction. This is
a measure of how much blood your left ventricle pumps.
- Your heart's electrical system. You will likely have tests to check for heart rhythm problems.
A pacemaker can help your heart pump blood better. It may help you feel better so you can be more
active. It also may help keep you out of the hospital and help you live
longer. A pacemaker can slow the progression of heart failure. It can do this by helping the heart's electrical system work well and by changing the shape of your heart. In heart failure, the left ventricle often
gets too big as it tries to make up for not pumping well. The pacemaker can slow down this change in your ventricle. It might even
help your ventricle go back to a more normal size. - A large study found that 19 out of 100 people who were treated
with a pacemaker for heart failure had to go into the hospital during the study
because of heart failure. But 27 out of 100 people treated with medicine alone
had to go into the hospital for heart failure.footnote 3
- In the same study, 13 out of 100 people who got a pacemaker for
heart failure died during the study, compared with 16 out of 100 who got only
medicine.footnote 3
- The combination of a pacemaker and an ICD (implantable
cardioverter-defibrillator) can also help people live longer and stay out of the hospital.footnote 4
There are several risks to getting a pacemaker. But risks
vary for each person. The chance of most problems is low. The procedure to implant a pacemaker is safe, and most people do well afterward. You will see your doctor regularly to check your pacemaker and make sure you don't have any problems. During the procedure. If problems happen during the procedure, doctors likely can fix them right away. - A lung could collapse (pneumothorax). This happens if air builds up in
the space between the lung and the chest wall. But a pneumothorax can be treated and people recover well. This might happen about 1 time out of 100. So about 99 times out of 100, no problems happen.footnote 5
- A tear in the heart could happen. Or a person might need emergency medicine or surgery. Based on rates of complications from patients, these problems happen about 1 time out of 100. So about 99 times out of 100, these problems do not happen.footnote 6
- The pacemaker might not be able to be implanted for several
reasons, such as when a vein near the left ventricle is too small, too wide, or
too hard to reach to allow a lead to be placed. Sometimes the chest or heart
may be too big to place a lead. The chance that a doctor can't place the
pacemaker is about 8 out of 100. That means the pacemaker can be placed 92
times out of 100.footnote 5
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 issues with their pacemakers. Problems include: - Pain, bleeding, or bruising soon after the procedure.
- Infection in your chest near the pacemaker. An infection might happen about 1 time out of 100. This means that about 99 times out of 100 there is no infection.footnote 7
- The pacemaker or leads might not work. This might happen about 7
times out of 100. So 93 times out of 100, the pacemaker and leads do
work.footnote 8
- A lead might move out of place. This might happen up to 9 times out of 100. So about 91 out of 100 times, the lead stays in place.footnote 8
Daily precautions. Some
activities and situations can interrupt the signals sent by the pacemaker to
the heart. You may need to adapt some of your activities. If you have a
pacemaker, follow your doctor's
specific instructions about care and precautions. Compare your options | |
---|
What is usually involved? |
| |
---|
What are the benefits? |
| |
---|
What are the risks and side effects? |
| |
---|
Get a pacemaker
Get a pacemaker
- The doctor will numb the area so
you won't feel pain. (This is not open-chest surgery.)
- It can take up to 2 to 3 hours to place the pacemaker.
- You may spend the night in the hospital to make sure that the
device is working and that there are no problems.
- You will need regular checkups to make sure that the pacemaker is
working and to adjust the pacing, if needed.
- You still need to take medicines for heart failure.
- You still have to eat healthy foods and exercise as your doctor
advises. You also may need to limit salt and fluids.
- A pacemaker can slow the progression of heart failure.
- It can help you feel
better so you can be more active.
- It can help keep you out of the hospital and help you live
longer.
The risks from
surgery are usually low. But they may be different for each person. Here are
some possible risks: - Problems can happen during the procedure to place the pacemaker or soon after the procedure. One example is a lung collapsing.
- The doctor might not be able to place the pacemaker. For example,
a vein could be too small to place a lead.
- There might be problems with the pacemaker. Examples include an infection or leads that don't work.
- Some devices with strong magnetic or electrical fields could stop
the pacemaker from working. You need to avoid
MRI machines (unless your pacemaker is safe for an MRI), battery-powered cordless power tools,
and CB or ham radios. But most everyday appliances and electronic devices are
safe.
- You will need surgery to replace the battery, which lasts 8 to 10
years.
Don't get a pacemaker
Don't get a pacemaker
- You take medicines for
heart failure. Your doctor may change the type or dose of your
medicines.
- You have to eat healthy foods and exercise as your doctor
advises. You also may need to limit salt and fluids.
- You may have to see your doctor often to check your symptoms and
how your medicine is working.
- You won't have the risk of
infection or other problems from the surgery.
- You won't have to think about safety around devices that could stop your pacemaker from working.
- Your
symptoms could get worse. This would limit your ability to do your daily
activities.
- If your heart failure gets worse, you may have to go into the
hospital a lot.
- You might not live as long as you could if you had a
pacemaker.
I have a
hard time getting my chores done around the house or going grocery shopping. I
get really short of breath after walking for a few minutes. My doctor says a
pacemaker could help me feel better. I had a
heart attack a while ago, and now I have heart failure. My doctor says that a pacemaker might help me in the long run. But I don't really have symptoms. I can still work and take my daily walks with no problem. I'm more worried about having the device in my body. So I don't want it right now. My girlfriends and I go on a big trip every
year. We visit museums and take long walks. I want to keep doing these trips for a long time. So I'm getting the pacemaker. I want to do everything I can so that my heart failure doesn't get worse anytime soon. My heart failure is getting a little worse.
I can't play a whole round of golf anymore. My doctor and I talked about a
pacemaker. But I'm scared of having one of those. I don't like the idea of
wires in my heart. I told my doctor that I want to keep taking my medicine and
follow my diet to see if that helps. If my heart failure gets worse, I'll look
again at getting a pacemaker. 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 a pacemaker Reasons not to get a pacemaker I want to do everything I can to slow down this disease. I'm afraid of having problems with the device later on. More important Equally important More important I have a lot of symptoms from heart failure. I want to feel better and be able to do more. I feel pretty good, and I'm not having too much trouble doing my daily activities. More important Equally important More important I don't mind having a device in my chest. I don't like the idea of having a device in my chest. More important Equally important More important I'm not worried about risks from surgery. I don't want to take a chance that something could go wrong during 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 a pacemaker NOT getting a pacemaker 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 |
---|
Primary Medical Reviewer | Rakesh K. Pai, MD, FACC - Cardiology, Electrophysiology |
---|
Primary Medical Reviewer | Martin J. Gabica, MD - Family Medicine |
---|
Primary Medical Reviewer | E. Gregory Thompson, MD - Internal Medicine |
---|
Primary Medical Reviewer | Kathleen Romito, MD - Family Medicine |
---|
Specialist Medical Reviewer | John M. Miller, MD, FACC - Cardiology, Electrophysiology |
---|
References Citations - Epstein AE, et al. (2013). 2012 ACCF/AHA/HRS focused update incorporated into the ACCF/AHA/HRS 2008 guidelines for device-based therapy of cardiac rhythm abnormalities. Circulation, 127(3): e283-e352.
- 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.
- McAlister FA, et al. (2007). Cardiac resynchronization therapy for patients with left ventricular systolic dysfunction: A systematic review. JAMA, 297(22): 2502-2514.
- 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.
- Poole JE, et al. (2010). Complication rates associated with pacemaker or implantable cardioverter-defibrillator generator replacements and upgrade procedures. Circulation, 122(16): 1553-1561. DOI: 10.1161/CIRCULATIONAHA.110.976076. Accessed December 15, 2016.
- 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.
- McKelvie R (2011). Heart failure, search date August 2010. BMJ Clinical Evidence. Available online: http://www.clinicalevidence.com.
Other Works Consulted - Bogale N, et al. (2012). The European CRT survey: 1 year (9-15 months) follow-up results. European Journal of Heart Failure, 14(1): 61-73.
- 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 a Pacemaker (Cardiac Resynchronization Therapy)?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 a pacemaker for heart failure.
- Don't get a pacemaker for heart failure.
A pacemaker for heart failure is used for cardiac resynchronization therapy (CRT). This type of pacemaker is different from
pacemakers used to treat other heart rhythm problems, such as bradycardia. This topic is only about
pacemakers for heart failure. You might hear it only called cardiac resynchronization therapy, or CRT. Key points to remember- A pacemaker for heart failure, also called cardiac resynchronization therapy or CRT, can help you feel better so you
can do your daily activities.
- A pacemaker can slow down the progression of heart failure. It may help keep you out of the hospital and
help you live longer.
- If you get a pacemaker, you still need to
take medicines for heart failure. You'll also need to follow a healthy
lifestyle to help treat heart failure. This may include watching how much fluid
you drink, eating healthy foods that are low in salt, and not
smoking.
- Heart experts have guidelines about who might need a
pacemaker. Talk to your doctor about the reasons that you might need one. For
example, a pacemaker may be a good choice if you have moderate or severe heart
failure and your heart's
ventricles don't pump at the same time.
- A pacemaker sends electrical pulses to your heart to help it
work better. You can't feel the pulses.
- There can be problems from having a pacemaker placed in your
chest. The wires (called leads) that connect the pacemaker to your heart can
move from the spot where they were placed. You could get an infection where the
pacemaker was placed. Or the pacemaker or leads might not work.
FAQs How does the pacemaker work? When you
have
heart failure, the lower
chambers of your heart (the ventricles) aren't able to pump as much blood as your
body needs. Sometimes, the ventricles also don't pump at the same time. Cardiac
resynchronization therapy (CRT) uses a special type of pacemaker called a biventricular pacemaker (say "by-ven-TRICK-yuh-ler") to treat heart failure. This pacemaker sends
electrical pulses to make the ventricles pump at the same time. This can help the heart pump blood better. The pacemaker connects to three thin wires, called leads.
The leads go into different chambers of your heart. If there is a problem with
your heartbeat, the pacemaker sends a painless signal through the leads to fix
the problem. The pacemaker also can speed up your heart if it is beating too
slowly. In some cases, you may get a pacemaker for heart failure
that is combined with a device to shock your heartbeat back to a normal rhythm
if it is dangerously fast. The device is called an implantable
cardioverter-defibrillator, or ICD. It can prevent sudden death. How is the pacemaker placed?Your doctor will put
the pacemaker 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. In some cases, the pacemaker can be placed lower in the chest. This
would allow you to wear clothing with a lower neckline and still keep the scar
covered. The doctor puts the leads in a vein and threads them to the heart. Then your doctor connects the leads to the pacemaker. Your doctor
puts the pacemaker in your chest and closes the
incision. Your doctor also programs the pacemaker. It can take about 2 to 3 hours to place the pacemaker. 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. But sometimes the procedure is done as an
outpatient procedure, which means you don't need to
stay overnight in the hospital. You may be able to see a little
bump under the skin where the pacemaker is placed. Who can have a pacemaker for heart failure?Whether a pacemaker for heart failure is right for you depends on many medical facts. Your doctor will check many things including:1, 2 - How bad your symptoms are and if you have trouble doing everyday activities. Heart failure is grouped-or
classified-according to symptoms. Your doctor will probably talk about your heart failure "class" number, which
will be between I and IV.
- Your ejection fraction. This is
a measure of how much blood your left ventricle pumps.
- Your heart's electrical system. You will likely have tests to check for heart rhythm problems.
What are the benefits of having a pacemaker for heart failure?A pacemaker can help your heart pump blood better. It may help you feel better so you can be more
active. It also may help keep you out of the hospital and help you live
longer. A pacemaker can slow the progression of heart failure. It can do this by helping the heart's electrical system work well and by changing the shape of your heart. In heart failure, the left ventricle often
gets too big as it tries to make up for not pumping well. The pacemaker can slow down this change in your ventricle. It might even
help your ventricle go back to a more normal size. - A large study found that 19 out of 100 people who were treated
with a pacemaker for heart failure had to go into the hospital during the study
because of heart failure. But 27 out of 100 people treated with medicine alone
had to go into the hospital for heart failure.3
- In the same study, 13 out of 100 people who got a pacemaker for
heart failure died during the study, compared with 16 out of 100 who got only
medicine.3
- The combination of a pacemaker and an ICD (implantable
cardioverter-defibrillator) can also help people live longer and stay out of the hospital.4
What are the risks of having a pacemaker for heart failure?There are several risks to getting a pacemaker. But risks
vary for each person. The chance of most problems is low. The procedure to implant a pacemaker is safe, and most people do well afterward. You will see your doctor regularly to check your pacemaker and make sure you don't have any problems. During the procedure. If problems happen during the procedure, doctors likely can fix them right away. - A lung could collapse (pneumothorax). This happens if air builds up in
the space between the lung and the chest wall. But a pneumothorax can be treated and people recover well. This might happen about 1 time out of 100. So about 99 times out of 100, no problems happen.5
- A tear in the heart could happen. Or a person might need emergency medicine or surgery. Based on rates of complications from patients, these problems happen about 1 time out of 100. So about 99 times out of 100, these problems do not happen.6
- The pacemaker might not be able to be implanted for several
reasons, such as when a vein near the left ventricle is too small, too wide, or
too hard to reach to allow a lead to be placed. Sometimes the chest or heart
may be too big to place a lead. The chance that a doctor can't place the
pacemaker is about 8 out of 100. That means the pacemaker can be placed 92
times out of 100.5
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 issues with their pacemakers. Problems include: - Pain, bleeding, or bruising soon after the procedure.
- Infection in your chest near the pacemaker. An infection might happen about 1 time out of 100. This means that about 99 times out of 100 there is no infection.7
- The pacemaker or leads might not work. This might happen about 7
times out of 100. So 93 times out of 100, the pacemaker and leads do
work.8
- A lead might move out of place. This might happen up to 9 times out of 100. So about 91 out of 100 times, the lead stays in place.8
Daily precautions. Some
activities and situations can interrupt the signals sent by the pacemaker to
the heart. You may need to adapt some of your activities. If you have a
pacemaker, follow your doctor's
specific instructions about care and precautions. 2. Compare your options | Get a pacemaker
| Don't get a pacemaker
|
---|
What is usually involved? | - The doctor will numb the area so
you won't feel pain. (This is not open-chest surgery.)
- It can take up to 2 to 3 hours to place the pacemaker.
- You may spend the night in the hospital to make sure that the
device is working and that there are no problems.
- You will need regular checkups to make sure that the pacemaker is
working and to adjust the pacing, if needed.
- You still need to take medicines for heart failure.
- You still have to eat healthy foods and exercise as your doctor
advises. You also may need to limit salt and fluids.
| - You take medicines for
heart failure. Your doctor may change the type or dose of your
medicines.
- You have to eat healthy foods and exercise as your doctor
advises. You also may need to limit salt and fluids.
- You may have to see your doctor often to check your symptoms and
how your medicine is working.
|
---|
What are the benefits? | - A pacemaker can slow the progression of heart failure.
- It can help you feel
better so you can be more active.
- It can help keep you out of the hospital and help you live
longer.
| - You won't have the risk of
infection or other problems from the surgery.
- You won't have to think about safety around devices that could stop your pacemaker from working.
|
---|
What are the risks and side effects? | The risks from
surgery are usually low. But they may be different for each person. Here are
some possible risks: - Problems can happen during the procedure to place the pacemaker or soon after the procedure. One example is a lung collapsing.
- The doctor might not be able to place the pacemaker. For example,
a vein could be too small to place a lead.
- There might be problems with the pacemaker. Examples include an infection or leads that don't work.
- Some devices with strong magnetic or electrical fields could stop
the pacemaker from working. You need to avoid
MRI machines (unless your pacemaker is safe for an MRI), battery-powered cordless power tools,
and CB or ham radios. But most everyday appliances and electronic devices are
safe.
- You will need surgery to replace the battery, which lasts 8 to 10
years.
| - Your
symptoms could get worse. This would limit your ability to do your daily
activities.
- If your heart failure gets worse, you may have to go into the
hospital a lot.
- You might not live as long as you could if you had a
pacemaker.
|
---|
Personal storiesPersonal stories about getting a pacemaker 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 a hard time getting my chores done around the house or going grocery shopping. I get really short of breath after walking for a few minutes. My doctor says a pacemaker could help me feel better." "I had a heart attack a while ago, and now I have heart failure. My doctor says that a pacemaker might help me in the long run. But I don't really have symptoms. I can still work and take my daily walks with no problem. I'm more worried about having the device in my body. So I don't want it right now." "My girlfriends and I go on a big trip every year. We visit museums and take long walks. I want to keep doing these trips for a long time. So I'm getting the pacemaker. I want to do everything I can so that my heart failure doesn't get worse anytime soon." "My heart failure is getting a little worse. I can't play a whole round of golf anymore. My doctor and I talked about a pacemaker. But I'm scared of having one of those. I don't like the idea of wires in my heart. I told my doctor that I want to keep taking my medicine and follow my diet to see if that helps. If my heart failure gets worse, I'll look again at getting a pacemaker." 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 a pacemaker Reasons not to get a pacemaker I want to do everything I can to slow down this disease. I'm afraid of having problems with the device later on. More important Equally important More important I have a lot of symptoms from heart failure. I want to feel better and be able to do more. I feel pretty good, and I'm not having too much trouble doing my daily activities. More important Equally important More important I don't mind having a device in my chest. I don't like the idea of having a device in my chest. More important Equally important More important I'm not worried about risks from surgery. I don't want to take a chance that something could go wrong during 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 a pacemaker NOT getting a pacemaker Leaning toward Undecided Leaning toward 5. What else do you need to make your decision?
Check the facts
1.
I don't need a pacemaker if I have mild heart failure and can still do my daily activities. That's right. A pacemaker might be right for you even if you have mild symptoms. The pacemaker may slow the progression of heart failure. Your doctor can help you know if a pacemaker might help you. 2.
A pacemaker could help me stay out of the hospital and live longer. That's right. A pacemaker for heart failure can help you stay out of the hospital and live longer. 3.
If I get a pacemaker, I still need to take medicines for heart failure and follow a healthy lifestyle. You're right. You still need to take your medicines for heart failure and follow a healthy lifestyle. This may include watching how much fluid you drink, eating healthy foods that are low in salt, and not smoking. 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 |
---|
Primary Medical Reviewer | Rakesh K. Pai, MD, FACC - Cardiology, Electrophysiology |
---|
Primary Medical Reviewer | Martin J. Gabica, MD - Family Medicine |
---|
Primary Medical Reviewer | E. Gregory Thompson, MD - Internal Medicine |
---|
Primary Medical Reviewer | Kathleen Romito, MD - Family Medicine |
---|
Specialist Medical Reviewer | John M. Miller, MD, FACC - Cardiology, Electrophysiology |
---|
References Citations - Epstein AE, et al. (2013). 2012 ACCF/AHA/HRS focused update incorporated into the ACCF/AHA/HRS 2008 guidelines for device-based therapy of cardiac rhythm abnormalities. Circulation, 127(3): e283-e352.
- 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.
- McAlister FA, et al. (2007). Cardiac resynchronization therapy for patients with left ventricular systolic dysfunction: A systematic review. JAMA, 297(22): 2502-2514.
- 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.
- Poole JE, et al. (2010). Complication rates associated with pacemaker or implantable cardioverter-defibrillator generator replacements and upgrade procedures. Circulation, 122(16): 1553-1561. DOI: 10.1161/CIRCULATIONAHA.110.976076. Accessed December 15, 2016.
- 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.
- McKelvie R (2011). Heart failure, search date August 2010. BMJ Clinical Evidence. Available online: http://www.clinicalevidence.com.
Other Works Consulted - Bogale N, et al. (2012). The European CRT survey: 1 year (9-15 months) follow-up results. European Journal of Heart Failure, 14(1): 61-73.
- 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:
April 20, 2017 Epstein AE, et al. (2013). 2012 ACCF/AHA/HRS focused update incorporated into the ACCF/AHA/HRS 2008 guidelines for device-based therapy of cardiac rhythm abnormalities. Circulation, 127(3): e283-e352. 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. McAlister FA, et al. (2007). Cardiac resynchronization therapy for patients with left ventricular systolic dysfunction: A systematic review. JAMA, 297(22): 2502-2514. 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. Poole JE, et al. (2010). Complication rates associated with pacemaker or implantable cardioverter-defibrillator generator replacements and upgrade procedures. Circulation, 122(16): 1553-1561. DOI: 10.1161/CIRCULATIONAHA.110.976076. Accessed December 15, 2016. 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. McKelvie R (2011). Heart failure, search date August 2010. BMJ Clinical Evidence. Available online: http://www.clinicalevidence.com. Last modified on: 8 September 2017
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