Electrophysiological
Studies
(EP
Study, EPS, Electrophysiology Studies)
What
is an electrophysiological study?
An electrophysiological
study (EP study) is an invasive procedure that
tests the heart's electrical system. The electrical
system of the heart generates the heart beat.
During
an EP study, a small, plastic catheter (tube)
is inserted through a vein in the groin (or arm,
in some cases) and is threaded into the heart,
using a special type of x-ray, called fluoroscopy,
to guide the catheter. Once in the heart, electrical
signals are sent through the catheter to the heart
tissue to evaluate the electrical conduction system
contained within the heart muscle tissue.
There
are several ways in which EP studies may be performed
to assist in diagnosing electrical conduction
system abnormalities of the heart. For example,
a dysrhythmia/arrhythmia (an abnormal rhythm)
may be stimulated by the electrical signal, in
which case medication may be given to treat the
dysrhythmia. In order to evaluate the effectiveness
of the medication given, another attempt is made
to stimulate the dysrhythmia.
Mapping,
another type of EP study, may be done to locate
the point of origin of a dysrhythmia. If a location
is found that is the cause of the dysrhythmia,
an ablation (removal of the spot by freezing or
radiofrequency) may be done, which should stop
the dysrhythmia.
The
results of the study may help the physician determine
further therapeutic measures, such as inserting
a pacemaker or implantable defibrillator, adding
or changing medications, performing additional
ablation procedures, or providing other treatments.
Other
related procedures that may be used to assess
the heart include resting or exercise electrocardiogram
(ECG), Holter monitor, signal-averaged ECG, cardiac
catheterization, chest x-ray, computed tomography
(CT scan) of the chest, echocardiography, magnetic
resonance imaging (MRI) of the heart, myocardial
perfusion scans, radionuclide angiography, and
ultrafast CT scan. Please see these procedures
for additional information.
The
heart’s electrical conduction system:
The
heart is, in the simplest terms, a pump made up
of muscle tissue. Like all pumps, the heart requires
a source of energy in order to function. The heart's
pumping action comes from an indwelling electrical
conduction system.
In the
heart, an electrical stimulus is generated by
the sinus
node (sinoatrial node, or SA node), which is a
small mass of specialized tissue located in the
right atrium (right upper chamber) of the heart.
The
sinus node generates an electrical stimulus regularly
at 60 to 100 times per minute under normal conditions.
This electrical stimulus travels down through
the conduction pathways (similar to the way electricity
flows through power lines from the power plant
to your house) and causes the heart's lower chambers
to contract and pump out blood. The right and
left atria (the two upper chambers of the heart)
are stimulated first and contract a short period
of time before the right and left ventricles (the
two lower chambers of the heart). The electrical
impulse travels from the sinus node (SA node)
to the atrioventricular (AV) node, where impulses
are slowed down for a very short period, then
continues down the conduction pathway via the
“bundle of His” into the ventricles.
The bundle of His divides into right and left
pathways to provide electrical stimulation to
both ventricles.
When
a problem develops with the heart’s rhythm,
there may or may not be any symptoms. The presence
of a dysrhythmia is usually determined by an electrocardiogram
(ECG). An ECG is one of the simplest and fastest
procedures used to evaluate the electrical activity
of the heart. By placing electrodes at specific
locations on the body (chest, arms, and legs),
a tracing of the electrical activity can be obtained.
The
electrical activity of the heart is measured,
interpreted, and printed out for the physician’s
information and further interpretation, such as
the need for an electrophysiological study.
How
do rhythm problems affect the heart?
One
of the most common heart dysrhythmias/arrhythmias
is premature ventricular beats, or PVCs. PVCs
are just what they sound like: the ventricles
beat sooner than they should. This means that
the ventricle is contracting and pumping out blood
before the atrium above it has completely pumped
its blood volume into the ventricle. Most of the
time, PVCs are harmless. In fact, almost everyone
has them at one time or another. However, if PVCs
occur too frequently (more than several times
per minute), the heart is unable to pump an adequate
volume of blood to the body, which can cause symptoms
such as weakness, fatigue, palpitations, or low
blood pressure.
Other
types of rhythm problems can have similar effects.
Problems may occur when the heart beats too fast,
too slow, or with an irregular rhythm. But whether
the heart is beating too fast, too slow, or too
irregularly, the effects are often the same as
one or more of those described above. Some additional
examples of rhythm problems include:
- atrial fibrillation
- occurs when the atria beat irregularly
and too fast
- ventricular fibrillation
- occurs when the ventricles beat
irregularly and too fast
- bradycardia -
occurs when the heart beats too slow
- tachycardia -
occurs when the heart beats too fast
- heart block -
occurs when the electrical signal is delayed
or blocked after leaving the SA node. There
are several types of heart blocks, and each
one has a distinctive ECG tracing.
Some
dysrhythmias, however, occur only intermittently,
and cannot be seen on a routine ECG or on a more
sophisticated type of ECG, such as a signal-averaged
ECG or a Holter monitor procedure (a prolonged
recording of the heart rhythm over 24 hours or
longer). If the physician suspects a problem with
the heart's conduction system and cannot adequately
diagnose the problem with other tests or procedures,
then he/she may also decide that an electrophysiology
study is appropriate.
An EP
study may be performed for the following reasons:
- to evaluate a symptomatic
patient (a patient having dizziness, fainting,
weakness, palpitation, or other symptoms) for
a rhythm problem when other noninvasive tests
have been inconclusive
- to locate the source
of a rhythm problem
- to assess the effectiveness
of medication(s) given to treat a rhythm problem
- to evaluate the effectiveness
of a pacemaker
There
may be other reasons for your physician to recommend
an electrophysiological study.
Possible
risks of an EP study include, but are not limited
to, the following:
- stimulation of more
severe rhythm problems
- bleeding from the catheter
insertion site(s)
- damage to the vessel
at the catheter insertion site(s)
- infection of the catheter
site(s)
- perforation of the
heart (rare)
The
amount of radiation from fluoroscopy used during
an EPS procedure is considered minimal; therefore,
the risk for radiation exposure is very low.
If you
are pregnant or suspect that you may be pregnant,
you should notify your physician due to risk of
injury to the fetus from an EP study. Radiation
exposure during pregnancy may lead to birth defects.
If you are lactating, or breastfeeding, you should
notify your physician.
Patients
who are allergic to or sensitive to medications
or latex should notify their physician.
For
some patients, having to lie still on the procedure
table for the length of the procedure may cause
some discomfort or pain.
There
may be other risks depending upon your specific
medical condition. Be sure to discuss any concerns
with your physician prior to the procedure.
- Your physician will
explain the procedure to you and offer you the
opportunity to ask any questions that you might
have about the procedure.
- You will be asked to
sign a consent form that gives your permission
to do the test. Read the form carefully and
ask questions if something is not clear.
- Notify your physician
if you are sensitive to or are allergic to any
medications, iodine, latex, tape, or anesthetic
agents (local and general).
- You will need to fast
for a certain period of time prior to the procedure.
Your physician will notify you how long to fast,
usually overnight.
- If you are pregnant
or suspect that you may be pregnant, you should
notify your physician.
- Notify your physician
if you have any body piercing on your chest
and/or abdomen.
- Notify your physician
of all medications (prescription and over-the-counter)
and herbal supplements that you are taking.
- Notify your physician
if you have heart valve disease, as you may
need to receive and antibiotic prior to the
procedure.
- Notify your physician
if you have a history of bleeding disorders
or if you are taking any anticoagulant (blood-thinning)
medications, aspirin, or other medications that
affect blood clotting. It may be necessary for
you to stop some of these medications prior
to the procedure.
- Your physician may
request a blood test prior to the procedure
to determine how long it takes your blood to
clot. Other blood tests may be done as well.
- Notify your physician
if you have a pacemaker.
- If a sedative is given
before the procedure, you may need someone to
drive your home afterwards.
- The area around the
catheter insertion (groin area) may be shaved.
- Based upon your medical
condition, your physician may request other
specific preparation.
An EP
study may be performed on an outpatient basis
or as part of your stay in a hospital. Procedures
may vary depending on your condition and your
physician’s practices.
Generally,
an EP study follows this process:
- You will be asked to
remove any jewelry or other objects that may
interfere with the procedure.
- You will be asked to
remove clothing and will be given a gown to
wear.
- You will be asked to
empty your bladder prior to the procedure.
- An intravenous (IV)
line will be started in your hand or arm prior
to the procedure for injection of medication
and to administer IV fluids, if needed.
- You will be placed
in a supine (on your back) position on the procedure
table.
- You will be connected
to an ECG monitor that records the electrical
activity of the heart and monitors the heart
during the procedure using small, adhesive electrodes.
Your vital signs (heart rate, blood pressure,
breathing rate, and oxygenation level) will
be monitored during the procedure.
- There may be several
monitor screens, showing your vital signs and
the images of the catheter being moved through
the body into the heart.
- You will receive a
sedative medication in your IV before the procedure
to help you relax. However, you will likely
remain awake during the procedure.
- Your pulses below the
IV site may be checked and marked with a marker
so that the circulation to the limb below the
site can be checked after the procedure.
- A local anesthetic
will be injected into the skin at the insertion
site. You may feel some stinging at the site
for a few seconds after the local anesthetic
is injected.
- Once the local anesthetic
has taken effect, a sheath, or introducer, will
be inserted into the blood vessel. This is a
plastic tube through which the catheter will
be inserted into the blood vessel and advanced
into the heart.
- One or more catheters
will be inserted through the sheath into the
blood vessel. The physician will advance the
catheter through the blood vessel into the right
side of the heart. Fluoroscopy (a special type
of x-ray that is displayed on a TV monitor),
may be used to assist in advancing the catheter
to the heart.
- Once the physician
has the catheter(s) placed properly, the electrical
testing will begin by sending very small electrical
impulses to certain areas within the heart.
If a dysrhythmia occurs, you may begin to feel
lightheaded or dizzy. Medication will be given
in your IV to treat the dysrhythmia. Alternatively,
a shock will be delivered to stop the dysrhythmia.
You will be sedated before this type of shock
is given.
- If a certain area of
tissue is found to be causing a dysrhythmia,
the physician may perform an ablation to eliminate
the tissue. This is done with radio waves (radiofrequency
ablation). The radio waves are delivered through
the catheter to the tissue.
- If you notice any discomfort
or pain, such as chest pain, neck or jaw pain,
back pain, arm pain, shortness of breath, or
breathing difficulty, let the physician know.
- Once the procedure
has been completed, the catheter(s) will be
removed from the insertion site. The physician
or an assistant will hold pressure on the insertion
site so that the blood can begin to form a clot
at the site and stop the bleeding.
- Once the bleeding has
stopped, a bandage will be placed on the site.
- You will be assisted
to slide from the table onto a stretcher so
that you can be taken to the recovery area.
NOTE: If the insertion was in the groin, you
will not be allowed to bend your leg for a few
hours. To help you remember to keep your leg
straight, the knee of the affected leg may be
covered with a sheet and the ends will be tucked
under the mattress on both sides of the bed
to form a type of loose restraint.
In
the hospital:
After
the procedure, you may be taken to the recovery
room for observation or returned to your hospital
room. You will remain flat in bed for a few hours
after the procedure. The circulation and sensation
of the limb where the catheter was inserted will
be monitored. A nurse will monitor your vital
signs, the insertion site, and circulation/sensation
in the affected leg or arm.
You
should immediately inform your nurse if you feel
any chest pain or tightness, or any other pain,
as well as any feelings of warmth, bleeding, or
pain at the insertion site in your leg or arm.
Bedrest
may vary from two to six hours depending on your
specific condition.
In some
cases, the sheath or introducer may be left in
the insertion site. If so, the period of bedrest
will be prolonged until the sheath is removed.
After the sheath is removed, you may be given
a light meal.
You
may be given pain medication for pain or discomfort
related to the insertion site or having to lie
flat and still for a prolonged period.
You
may resume your usual diet after the procedure,
unless your physician decides otherwise.
After
the specified period of bed rest has been completed,
you may get out of bed. The nurse will assist
you the first time you get up, and will check
your blood pressure while you are lying in bed,
sitting, and standing. You should move slowly
when getting up from the bed to avoid any dizziness
from the long period of bedrest.
When
you have completed the recovery period, you may
be discharged to your home unless your physician
decides otherwise. If this procedure was performed
on an outpatient basis, you must have another
person drive you home.
At
home:
Once
at home, you should monitor the insertion site
for bleeding, unusual pain, swelling, and abnormal
discoloration or temperature change at or near
the injection site. A small bruise is normal.
If you notice a constant or large amount of blood
at the site that cannot be contained with a small
dressing, notify your physician.
It will
be important to keep the insertion site clean
and dry. Your physician will give you specific
bathing instructions.
You
may be advised not to participate in any strenuous
activities. Your physician will instruct you about
when you can return to work and resume normal
activities.
Notify
your physician to report any of the following:
- fever and/or chills
- increased pain, redness,
swelling, or bleeding or other drainage from
the insertion site
- coolness, numbness
and/or tingling, or other changes in the affected
extremity
- chest pain/pressure,
nausea and/or vomiting, profuse sweating, dizziness,
and/or fainting
Your
physician may give you additional or alternate
instructions after the procedure, depending on
your particular situation.
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