Pacemaker
Overview
A pacemaker is a small
device that is placed (implanted) in the chest to help control the heartbeat. It
is used to prevent the heart from beating too slowly. Implanting a pacemaker in
the chest requires a surgical procedure.
A pacemaker is also called a
cardiac pacing device.
Types
Depending on your condition,
you might have one of the following types of pacemakers.
Single chamber
pacemaker. This type usually carries electrical
impulses to the right ventricle of your heart.
Dual chamber
pacemaker. This type carries electrical impulses to the
right ventricle and the right atrium of your heart to help control the timing
of contractions between the two chambers.
Biventricular
pacemaker. Biventricular pacing, also called cardiac
resynchronization therapy, is for people who have heart failure and heartbeat
problems. This type of pacemaker stimulates both lower heart chambers (the
right and left ventricles) to make the heartbeat more efficiectly.
Why it has done
A pacemaker is implanted to
help control your heartbeat. Your doctor may recommend a temporary pacemaker
when you have a slow heartbeat (bradycardia) after a heart attack, surgery, or
medication overdose but your heartbeat is otherwise expected to recover. A
pacemaker may be implanted permanently to correct a chronic slow or irregular
heartbeat or to help treat heart failure.
How your heart beats
The heart is a muscular,
fist-sized pump with four chambers, two on the left side and two on the right.
The upper chambers (right and left atria) and the lower chambers (right and
left ventricles) work with your heart's electrical system to keep your heart
beating at an appropriate rate — usually 60 to 100 beats a minute for adults at
rest.
Your heart's electrical
system controls your heartbeat, beginning in a group of cells at the top of the
heart (sinus node) and spreading to the bottom, causing it to contract and pump
blood. Aging, heart muscle damage from a heart attack, some medications and
certain genetic conditions can cause an irregular heart rhythm.
What a pacemaker does
Pacemakers work only when
needed. If your heartbeat is too slow (bradycardia), the pacemaker sends
electrical signals to your heart to correct the beat.
Some newer pacemakers also
have sensors that detect body motion or breathing rate and signal the devices
to increase heart rate during exercise, as needed.
A pacemaker has two parts:
Pulse generator.
This small metal container houses a battery and the electrical circuitry that
controls the rate of electrical pulses sent to the heart.
Leads (electrodes).
One to three flexible, insulated wires are each placed in one or more chambers
of the heart and deliver the electrical pulses to adjust the heart rate.
However, some newer pacemakers do not require leads. These devices, called
leadless pacemakers, are implanted directly into the heart must
Risks
Complications related to
pacemaker surgery or having a pacemaker are uncommon, but could include:
Infection near the site in
the heart where the device is implanted
Swelling, bruising, or
bleeding at the pacemaker site, especially if you take blood thinners
Blood clots
(thromboembolism) near the pacemaker site
Damage to blood vessels or
nerves near the pacemaker
Collapsed lung
(pneumothorax)
Blood in the space between
the lung and chest wall (hemothorax)
Movement (shifting) of the
device or leads, which could lead to cardiac perforation (rare)
How you prepare
Before your doctor decides
if you need a pacemaker, you will have several tests done to find the cause of
your irregular heartbeat. Tests done before you get a pacemaker could include:
Electrocardiogram
(ECG or EKG). This quick and painless test measures the electrical activity of
the heart. Sticky patches (electrodes) are placed on the chest and sometimes
the arms and legs. Wires connect the electrodes to a computer, which displays
the test results. An ECG can show if the heart is beating too fast, too slow,
or not at all.
Holter monitoring. A
Holter monitor is a small, wearable device that keeps track of the heart's
rhythm. Your doctor may want you to wear a Holter monitor for 1 to 2 days.
During that time, the device records all your heartbeats. Holter monitoring is
especially useful in diagnosing heartbeat problems that occur at unpredictable
times. Some personal devices, such as smartwatches, offer electrocardiogram
monitoring. Ask your doctor if this is an option for you.
Echocardiogram.
This noninvasive test uses sound waves to produce images of the heart's size, structure,
and motion.
Stress test.
Some heart problems occur only during exercise. For a stress test, an
electrocardiogram is taken before and immediately after walking on a treadmill
or riding a stationary bike. Sometimes, a stress test is done along with
echocardiography or nuclear imaging.
What you can expect
Before the procedure
You will be awake during the
surgery to implant the pacemaker, which typically takes a few hours. A
specialist will insert an IV into your forearm or hand and give you a
medication called a sedative to help you relax. Your chest is cleaned with
special soap.
Most pacemaker implantations
are done using local anesthesia to numb the area of the incisions. However, the
amount of sedation needed for the procedure depends on your specific health
conditions. You may be fully awake or lightly sedated, or you may be given
general anesthesia (fully asleep).
During the procedure
One or more wires are
inserted into a major vein under or near your collarbone and guided to your
heart using X-ray images. One end of each wire is secured at the appropriate
position in your heart, while the other end is attached to the pulse generator,
which is usually implanted under the skin beneath your collarbone.
A leadless pacemaker is
smaller and typically requires a less invasive surgery to implant the device.
The pulse generator and other pacemaker parts are contained in a single
capsule. The doctor inserts a flexible sheath (catheter) in a vein in the groin
and then guides the single component pacemaker through the catheter to the
proper position in the heart.
After the procedure
You will stay in the
hospital for a day after having a pacemaker implanted. Your pacemaker will be
programmed to fit your heart rhythm needs. You will need to arrange to have
someone drive you home from the hospital.
Your doctor might recommend
that you avoid vigorous exercise or heavy lifting for about a month. Avoid
putting pressure on the area where the pacemaker was implanted. If you have
pain in that area, ask your doctor about taking medicines available without a
prescription, such as acetaminophen (Tylenol, others) or ibuprofen (Advil,
Motrin IB, others).
Special precautions
It is unlikely that your
pacemaker would stop working properly because of electrical interference.
Still, you will need to take a few precautions:
Cellphones. It
is safe to talk on a cellphone but keep your cellphone at least six inches (15
centimeters) away from your pacemaker. Do not keep your phone in a shirt
pocket. When talking on your phone, hold it to the ear opposite the side where
your pacemaker was implanted.
Security systems.
Passing through an airport metal detector will not interfere with your
pacemaker, although the metal in the pacemaker could sound the alarm. But avoid
lingering near or leaning against a metal-detection system.
To avoid potential problems,
carry an ID card stating that you have a pacemaker.
Medical equipment. Make
sure all your doctors and dentists know you have a pacemaker. Certain medical
procedures, such as magnetic resonance imaging, CT scans, cancer radiation
treatment, electrocautery to control bleeding during surgery, and shock wave
lithotripsy to break up large kidney stones or gallstones could interfere with
your pacemaker.
Power-generating
equipment. Stand at least two feet (61 centimeters)
from welding equipment, high-voltage transformers, or motor-generator systems.
If you work around such equipment, ask your doctor about arranging a test in your
workplace to determine whether the equipment affects your pacemaker.
Devices that are unlikely to
interfere with your pacemaker include microwave ovens, televisions and remote
controls, radios, toasters, electric blankets, electric shavers, and electric
drills.
Results
Having a pacemaker should
improve symptoms caused by a slow heartbeat such as fatigue, lightheadedness,
and fainting. Because most of today's pacemakers automatically adjust the heart
rate to match the level of physical activity, they may can allow you to resume
a more active lifestyle.
Your doctor should check
your pacemaker every 3 to 6 months. Tell your doctor if you gain weight, if
your legs or ankles get puffy, or if you faint or get dizzy.
Most pacemakers can be
checked by your doctor remotely, which means you do not have to go into the
doctor's office. Your pacemaker sends information to your doctor, including
your heart rate and rhythm, how your pacemaker is working, and how much battery
life is left.
Your pacemaker's battery
should last 5 to 15 years. When the battery stops working, you will need
surgery to replace it. The procedure to change your pacemaker's battery is
often quicker and requires less recovery time than the procedure to implant
your pacemaker.
Pacemakers and end-of-life
issues
If you have a pacemaker and
become terminally ill with a condition unrelated to your heart, such as cancer,
it is possible that your pacemaker could prolong your life. Doctors and
researchers vary in their opinions about turning off a pacemaker in end-of-life
situations.
Talk to your doctor if you
have a pacemaker and are concerned about turning it off. You may also want to
talk to family members, or another person designated to make medical decisions
for you about what you would like to do in end-of-life care situations.
Jan Ricks Jennings, MHA, LFACHE
Senior Consultant
Senior Management
Services, LLC
JanJenningsBlog.Blogspot.com
412.913.0636 Cell
724.733.0509 Office
August 16, 2022
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