About Echocardiogram

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Learn about the disease, illness and/or condition Echocardiogram including: symptoms, causes, treatments, contraindications and conditions at ClusterMed.info.

Echocardiogram

Echocardiogram
Echocardiogram

Echocardiogram Information

How should one prepare for an echocardiogram?

There is no preparation for a transthoracic echocardiogram. When a transesophageal echocardiogram is performed, the patient usually requires some sedation to tolerate the procedure. The stomach should be empty to prevent vomiting and aspiration into the lungs. For that reason, the patient should have nothing to eat or drink for many hours before the procedure. Due to the sedation, the patient will need a family member or friend to escort the patient home. For a stress echocardiogram, the patient may need to walk on a treadmill or ride a bicycle. Comfortable shoes are recommended.

What are the different types of echocardiograms?

Transthoracic echocardiogram: In this procedure, the echocardiographer places the transducer, or probe, on the chest wall and bounces sound waves off the structures of the heart. The return signals are received by the same transducer and converted by a computer into the images seen on the screen. Transesophageal echocardiogram: In some situations, a clearer view of the heart is required and instead of placing the transducer on the chest wall, a cardiologist will direct the probe through the mouth into the esophagus. The esophagus is located right next to the heart in the middle of the chest and the sound waves can travel to the heart without the interference of the ribs and muscles of the chest wall. This test usually requires intravenous medications to sedate the patient. Because of the sedation, monitors will also be used to measure blood pressure and oxygen levels in the blood. Doppler echocardiogram: In addition to sound waves bouncing off the solid structures of the heart, they also bounce off the red blood cells as they circulate through the heart chambers. Using Doppler technology, the echocardiogram can assess the speed and direction of blood flow, helping increase the amount and quality of information available from the test. The computer can add color to help the doctor appreciate that information. Color flow Doppler is routinely added to all echocardiogram studies and is the same technology used in weather reports. Stress echocardiogram: To help uncover abnormalities in heart wall muscle function, the patient may be asked to exercise, either walking on a treadmill or riding an exercise bicycle. The echocardiogram is performed before exercise as a baseline and then immediately afterwards. When coronary arteries narrow due to atherosclerotic heart disease, the heart muscle may not get enough blood supply to meet its needs during exercise. This can cause chest pain (angina) or shortness of breath or no symptoms at all. On stress echocardiogram, those areas of heart muscle not receiving enough blood flow, may not squeeze as well as other parts of the heart and will appear to have motion abnormality. This can indirectly indicate narrowing, or stenosis, of the coronary arteries. For a stress echocardiogram to be effectively interpreted, the exercise done needs to achieve certain minimum intensity. If the patient is unable to adequately exercise, medications can be injected intravenously to chemically make the heart respond as if exercise is occurring. Contrast may be injected into the patient's vein to help enhance the images and increase the information that is obtained. The contrast material (Optison, Density) are microscopic protein shells filled with gas bubbles. The decision to use contrast depends upon the patient's specific situation.

What are the potential risks of having an echocardiogram?

There are no risks associated with a transthoracic echocardiogram. The risks of a transesophageal echocardiogram are due to the sedation required to perform the procedure or, very rarely, damage to the esophagus.

What happens during an echocardiogram test?

An echocardiogram is an office or outpatient procedure. Electrodes are placed on the chest wall to monitor heart rate and rhythm. The lights in the room may be dimmed to help see the images on the computer monitor. If contrast is used, an intravenous line will need to be started. For a transthoracic echocardiogram, the patient's chest will need to be exposed. The technician will press the transducer or probe firmly on the chest wall to get the heart images. The patient may be asked to roll on their left side take deep breaths to help the probe better "see" the heart. For a transesophageal echocardiogram, the patient will be monitored because of the need for intravenous sedation. A heart monitor and oxygen monitor will be placed; supplemental oxygen is usually provided by prongs placed in the nose and an intravenous line will be started. Once sedated, the cardiologist will pass a tube, with the transducer on its tip, through the mouth and position it in the esophagus at a level near the heart. The patient may or may or remember the procedure because many of the sedative medicines have an amnestic effect; but once the patient is fully awake, they may be discharged home with an escort.

What is an echocardiogram?

The heart is a two-stage electrical pump that circulates blood throughout the body. The anatomy includes four chambers and four valves. For the heart to function normally these structures need to be intact and the heart muscle needs to beat in a coordinated fashion, so that blood flows in and out of each chamber in the proper direction. An echocardiogram (echo=sound + card=heart + gram=drawing) is an ultrasound test that can evaluate the structures of the heart, as well as the direction of blood flow within it. Technicians specially trained in echocardiography produce the images and videos, often using a special probe or transducer that is placed in various places on the chest wall, to view the heart from different directions. Cardiologists, or heart specialists, are trained to evaluate these images to assess heart function and provide a report of the results.The echocardiogram is just one of the many tests that can be done to evaluate heart anatomy and function. An electrocardiogram (EKG, ECG) is the most common heart tracing done. Electrodes are placed on the chest wall and collect information about the electrical activity of the heart. Aside from the rate and rhythm of the heartbeat, the EKG can provide indirect evidence of blood flow within arteries to heart muscle and the thickness of heart muscle. Cardiac catheterization is an invasive test performed by a cardiologist, where a catheter is threaded into the coronary arteries (those arteries that supply the heart muscle with blood) through the femoral artery in the groin, the radial artery in the wrist, or the brachial artery in the elbow. Dye is injected into the coronary arteries looking for blockage. In some instances, the blockage can be corrected by balloon angioplasty where a balloon is inflated at the level of blockage, re-establishing blood flow. A stent can be used to keep the artery open. This test can also assess the size and function of the heart chambers and valves, and the major arteries and veins that enter and leave the heart.

What will the results of an echocardiogram indicate?

The purpose of the echocardiogram is to assess the structure and function of the heart. The results will provide information that can help the health care professional make a diagnosis that involves the heart. Echocardiograms may be repeated over time, monitoring heart function and the results may help decide whether previous treatment has been effective and whether any changes in that treatment program are required.

Why is an echocardiogram performed?

The purpose of an echocardiogram is to assess the structure and function of the heart. It is recommended as a noninvasive procedure as part of assessing potential and established heart problems. Regarding structure, the test can assess the general size of the heart, the size of the four heart chambers, and the appearance and function of the four heart valves. It can look at the two septa of the heart; the atrial septum separates the right and left atrium and the ventricular septum separates the right and left ventricles. It can also assess the pericardium (the sac that lines the heart) and the aorta. Regarding function, the echocardiogram can determine how the heart valves open and close. It can evaluate whether the heart muscle squeezes appropriately and how efficiently. Cardiac output measures how much blood the heart pumps. Ejection fraction measures what percent of blood within the heart is pumped out to the body with each heartbeat. It can also measure how well the heart relaxes in between beats, when the heart fills for the next pump. Some heart issues that the echocardiogram can help evaluate include the following:

  • Heart valve disorders: Stenosis (narrowed), insufficiency or regurgitation (leaking), and endocarditis (infection of the valves)
  • Abnormalities of the septum: Atrial septal defect, ventricular septal defect, and patent foramen ovale
  • Wall motion abnormalities: Cardiomyopathy, atherosclerotic heart disease (also known as coronary artery disease), and trauma
  • Diseases of the pericardium (the sac that lines the heart): This includes pericardial effusion (assessment of fluid in the pericardial sac)

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