Myocardial Perfusion Scan, Stress

Myocardial Perfusion Scan, Stress

(Exercise Thallium, Stress Thallium, Cardiac Nuclear Imaging, Adenosine Thallium Scan, Cardiolite Scan)

Procedure overview

What is a stress myocardial perfusion scan?

A myocardial perfusion scan is a type of nuclear medicine procedure. This means that a tiny amount of a radioactive substance, called a radionuclide (radiopharmaceutical or radioactive tracer), is used during the procedure to assist in the examination of the tissue under study. Specifically, the myocardial perfusion scan evaluates the heart’s function and blood flow.

A radionuclide is a radioactive substance used as a "tracer," which means it travels through the blood stream and is taken up (absorbed) by the healthy heart muscle tissue. On the scan, the areas where the radionuclide has been absorbed will show up differently than the areas that do not absorb it (due to possible damage to the tissue from decreased or blocked blood flow).

A stress myocardial perfusion scan is used to assess the blood flow to the heart muscle (myocardium) when it is stressed by exercise or medication and to determine what areas of the myocardium have decreased blood flow. This is done by injecting a radionuclide (thallium or technetium) into a vein in the arm or hand.

There are different types of radionuclides. When one type of radionuclide is used, areas of the myocardium that have blocked or partially blocked arteries will be seen on the scan as "cold spots," or "defects," because these areas will be unable to take in the radionuclide into the myocardium. Another type of radionuclide binds to the calcium that is released when a heart attack occurs, so it will accumulate in area(s) of injured heart tissue as a “hot spot” on the scan.

There are two types of stress myocardial perfusion scans, one that is used in conjunction with exercise (myocardial perfusion scan with exercise) and one that is used in conjunction with medication (pharmacologic myocardial perfusion scan).

Other related procedures that may be used to diagnose heart disorders include exercise and resting electrocardiograms (ECG or EKG), Holter monitor, signal-averaged ECG, cardiac catheterization, chest X-ray, computed tomography (CT scan) of the chest, echocardiography, electrophysiological studies, magnetic resonance imaging (MRI) of the heart, radionuclide angiography, and cardiac CT scan. Please see these procedures for additional information.

Illustration of the anatomy of the heart, view of the coronary arteries
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Coronary artery disease

Coronary artery disease (CAD) is the narrowing of the coronary arteries (the blood vessels that supply oxygen and nutrients to the heart muscle), caused by a buildup of fatty material within the walls of the arteries. This process causes the inside of the arteries to become rough and narrowed, limiting the supply of oxygen-rich blood to the heart muscle.

To better understand how coronary artery disease affects the heart, a review of basic heart anatomy and function follows.

The heart is basically a pump. The heart is made up of specialized muscle tissue, called the myocardium. The heart's primary function is to pump blood throughout the body, so that the body's tissues can receive oxygen and nutrients and have waste substances taken away.

Like any pump, the heart requires fuel in order to work. The myocardium requires oxygen and nutrients, just like any other tissue in the body. However, the blood that passes through the heart's chambers is only passing through on its trip to the rest of the body. This blood does not give oxygen and nutrients to the myocardium. The myocardium receives its oxygen and nutrients from the coronary arteries, which lie on the outside of the heart.

Illustration of a normal and diseased artery
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When the heart tissue does not receive an adequate blood supply, it cannot function as well as it should. If the myocardium's blood supply is decreased for a length of time, a condition called ischemia may develop. Ischemia can decrease the heart's pumping ability, because the heart muscle becomes weakened due to a lack of oxygen.

Fortunately, the technology is available to restore blood flow to heart tissue when coronary artery blockages are diagnosed. One of several procedures used to diagnose and evaluate coronary artery disease is the myocardial perfusion scan.

Reasons for the procedure

Indications for an exercise or pharmacologic myocardial perfusion scan may include, but are not limited to, the following:

There may be other reasons for your doctor to recommend a myocardial perfusion scan.

Risks of the procedure

The exercise portion of the test may lead to rare instances of abnormal heart rhythms, chest pain, or heart attack due to the stress on the heart caused by the exercise.

The injection of the radionuclide may cause some slight discomfort. Allergic reactions to the radionuclide are rare.

If you are pregnant or suspect that you may be pregnant, you should notify your health care provider due to the risk of injury to the fetus from a myocardial perfusion scan. Radiation exposure during pregnancy may lead to birth defects. If you are lactating, or breastfeeding, you should notify your health care provider due to the risk of contaminating breast milk with the radionuclide.

Patients who are allergic to or sensitive to medications, contrast dyes, iodine, tape, or latex should notify their doctor.

There may be other risks depending on your specific medical condition. Be sure to discuss any concerns with your doctor prior to the procedure.

Certain factors or conditions may interfere with or affect the results of the test. These include, but are not limited to, the following:

Before the procedure

During the procedure

A stress myocardial perfusion scan 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 doctor's practices.

Generally, a stress myocardial perfusion scan follows this process:

  1. You will be asked to remove any jewelry or other objects that may interfere with the procedure.
  2. If you are asked to remove clothing, you will be given a gown to wear.
  3. An intravenous (IV) line will be started in your hand or arm.
  4. You will be connected to an ECG machine with leads and a blood pressure cuff will be placed on your arm.
Illustration demonstrating an exercise ECG
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Exercise myocardial perfusion scan:

  1. You will exercise on a treadmill. The intensity of the exercise will be gradually increased by increasing the speed of the treadmill.
  2. Your heart rate and blood pressure will be monitored. Once you have reached your maximal exercise point (determined by the doctor based on your heart rate and age), the radionuclide will be injected into your IV line.
  3. After the radionuclide has been injected, you will continue to exercise for several minutes.

Pharmacologic myocardial perfusion scan:

  1. You will not exercise on a treadmill. Instead, you will lie on the table while a medication is injected into your IV to increase your heart rate.
  2. Your heart rate and blood pressure will be monitored.
  3. Once you have reached your target heart rate, the radionuclide will be injected into your IV line.

Procedure completion, both methods:

  1. If you experience any symptoms such as dizziness, chest pain, extreme shortness of breath, or severe fatigue at any point during the procedure, let the doctor or technologist know.
  2. You will lie flat on a table while the images of your heart are obtained. Approximately 10 to 60 minutes after the radionuclide is injected, the gamma camera will begin to take pictures of your heart. In a special kind of test called SPECT (single photon emission computed tomography), the scanner will rotate around you as it takes pictures.
  3. Your arms will be positioned above your head. It will be necessary for you to lie very still while the images are being taken, as movement can adversely affect the quality of the images.
  4. After the scan is completed, you may be allowed to leave the area, but will need to return at the appropriate time for a second set of scans. The second set of scans will be taken three to six hours after the first set. During this time, you will not be allowed to eat, unless specifically instructed to do so by the technologist, and will be allowed limited water or decaffeinated/noncaloric liquids. Your doctor may decide to have you return on another day for the second set of scans.
  5. The second set of scans will be similar to the first set. You will lie on the table as before while the scanner takes pictures of your heart.
  6. Once the second set of scans has been completed, the IV line will be discontinued, and you will be allowed to leave, unless your doctor instructs you differently.

After the procedure

You should move slowly when getting up from the scanner table to avoid any dizziness or lightheadedness from lying flat for the length of the procedure.

You will be instructed to drink plenty of fluids and empty your bladder frequently for 24 to 48 hours after the test to help flush the remaining radionuclide from your body.

The IV site will be checked for any signs of redness or swelling. If you notice any pain, redness, and/or swelling at the IV site after you return home following your procedure, you should notify your doctor as this may indicate an infection or other type of reaction.

Your doctor may give you additional or alternate instructions after the procedure, depending on your particular situation.

Online resources

The content provided here is for informational purposes only, and was not designed to diagnose or treat a health problem or disease, or replace the professional medical advice you receive from your doctor. Please consult your health care provider with any questions or concerns you may have regarding your condition.

This page contains links to other websites with information about this procedure and related health conditions. We hope you find these sites helpful, but please remember we do not control or endorse the information presented on these websites, nor do these sites endorse the information contained here.

American College of Cardiology

American Heart Association

National Heart, Lung, and Blood Institute (NHLBI)

National Institutes of Health (NIH)

National Library of Medicine


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