Echocardiography is a procedure used to assess the heart's structures and function. Echocardiography is also called echo, cardiac ultrasound or ultrasonography, cardiac doppler, transthoracic echocardiography, or TTE. A small probe called a transducer is placed on your chest and sends out ultrasonic sound waves at a frequency too high to be heard. When the transducer is placed on your chest in certain locations and at certain angles, the ultrasonic sound waves move through the skin and other body tissues to the heart tissues, where the waves bounce (or "echo") off of the heart structures. The transducer picks up the reflected waves and sends them to a computer. The computer interprets the echoes into an image of the heart walls and valves.

What are the different types of Echocardiography?

An echocardiogram can utilize one, or more, of four special types of echocardiography, as listed below:

• M-Mode Echocardiography
  This is the simplest type of echocardiography, and produces an image that is similar to a tracing rather than an actual picture of heart structures. M-mode echo is useful for measuring heart structures, such as the heart's pumping chambers, the size of the heart itself, and the thickness of the heart's walls.
  
  

• Doppler Echocardiography
  This Doppler technique is used to measure and assess the flow of blood through the heart's chambers and valves. The amount of blood pumped out with each beat is an indication of the heart's functioning. Also, Doppler can detect abnormal blood flow within the heart, which can indicate such problems as an opening between chambers of the heart, a problem with one or more of the heart's four valves, or a problem with the heart's walls.
  
  

• Color Doppler
  Color Doppler is an enhanced form of Doppler Echocardiography. With Color Doppler, different colors are used to designate the direction of blood flow. This simplifies the interpretation of the Doppler images.
  
  

• 2-D (2-Dimensional) Echocardiography
  This technique is used to "see" the actual structures and motion of the heart structures. A 2-D echo view appears cone-shaped on the monitor, and the real-time motion of the heart's structures can be observed. This enables the physician to see the various heart structures at work and evaluate them.

What problems can Echocardiography diagnose?

Several diseases of the heart may be detected by echocardiography, including the following:

• Aneurysm - a dilation of a part of the coronary arteries or the aorta (the large artery which carries oxygenated blood out of the heart to the rest of the body) which may cause a weakness of the tissue at the site of the aneurysm. In extreme cases, the aneurysm may rupture, which is an emergency situation, causing rapid blood loss out of the blood vessels.
  
  

• Cardiomyopathy - an enlargement of the heart due to thickening or weakening of the heart muscle.
  
  

• Congenital (present at birth) Defects - abnormalities or deficiencies in one or more heart structures that occur during formation of the fetus.
  
  

• Congestive Heart Failure - a condition in which the heart muscle has become weakened to an extent that blood cannot be pumped efficiently; thus, causing a build up (congestion) in the blood vessels, lungs, feet, ankles, and other parts of the body.
  
  

• Pericarditis - an inflammation of the membrane (thin covering) that surrounds the heart.
  
  

• Valve Disease - one or more of the heart's four valves becomes defective, or may be congenitally (since birth) malformed.

How is an Echocardiography performed?

The test may be done in a cardiologist's office, in a clinic, at a hospital or medical center as an outpatient, or as an inpatient in a medical facility.

• The technician will need to see your chest from the waist up. Privacy will be maintained by drapes across your chest and by limiting access into the procedure area.
  
  

• EKG electrodes will be attached to your chest with adhesive patches.
  
  

• You will lie on a table or bed during the procedure. A pillow or wedge may be placed behind your back for support.
  
  

• The room will be darkened so that the images on the echo monitor can be better viewed by the technician.
  
  

• The technician will place gel on your chest and then place the transducer probe on the gel. You will feel a slight pressure as the technician positions the transducer to get the desired image of your heart.
  
  

• During the test, the technician will move the transducer probe around and apply varying amounts of pressure to obtain images of different locations and structures of your heart. The amount of pressure behind the probe should not be uncomfortable, but if it makes you uncomfortable, you should let the technician know.
  
  

• After the procedure has been completed, the technician will wipe the gel from your chest and remove the EKG electrodes.

In order to obtain clear pictures, it is important to try to hold still during the echocardiogram. An echocardiogram can be a lengthy procedure. You may become restless during the test, preventing clear images from being achieved.

Depending on the results of the echo, additional tests or procedures may be scheduled to gather further diagnostic information.