Express Diagnostics - Digital Radiography

Color Doppler

The outstanding dual combination of technologies for Color Doppler at Express Diagnostics centers, provide superb image quality for the following applications:

Carotid Colour Doppler to detect risk of stroke and paralysis by evaluating the vessels in the neck that supply blood to the brain.

Peripherial Arterial Colour Doppler.

Peripherial Venous Colour Doppler for detection of Deep Vein Thrombosis (DVT).

Renal Doppler (especially for hypertensive patients and diabetics).

Ultrasound is safe and painless, and produces pictures of the inside of the body using sound waves. Ultrasound imaging, also called ultrasound scanning or sonography, involves the use of a small transducer (probe) and ultrasound gel placed directly on the skin. High-frequency sound waves are transmitted from the probe through the gel into the body. The transducer collects the sounds that bounce back and a computer then uses those sound waves to create an image. Ultrasound examinations do not use ionizing radiation (as used in x-rays), thus there is no radiation exposure to the patient. Because ultrasound images are captured in real-time, they can show the structure and movement of the body's internal organs, as well as blood flowing through blood vessels.

Ultrasound imaging is a noninvasive medical test that helps physicians diagnose and treat medical conditions. Vascular ultrasound provides pictures of the body's veins and arteries. A Doppler ultrasound study is usually part of a vascular ultrasound examination. Doppler ultrasound is a special ultrasound technique that evaluates blood flow through a blood vessel, including the body's major arteries and veins in the abdomen, arms, legs, neck and head (in infants and children).

What are some common uses of the procedure?

Sonography is a useful way of evaluating the body's circulatory system. Vascular ultrasound is performed to:

Help monitor the blood flow to organs and tissues throughout the body.

Locate and identify blockages (stenosis) and abnormalities like plaque or emboli and help plan for their effective treatment.

Detect blood clots (deep venous thrombosis (DVT) in the major veins of the legs or arms.

Determine whether a patient is a good candidate for a procedure such as angioplasty.

Evaluate the success of procedures that graft or bypass blood vessels.

Determine if there is an enlarged artery (aneurysm).

Determine the source and severity of varicose veins.

In children, ultrasound is used to:

Aid in the placement of a needle or catheter into a vein or artery to help avoid complications such as bleeding, nerve injury or pseudo-aneurysm (abnormal outpouching of an artery with the risk of rupture).

Evaluate a connection between an artery and a vein which can be seen in congenital vascular malformations (arteriovenous malformations or fistula) and in dialysis fistula.

If a line is placed in an artery or vein of the legs or arms, there is a much higher chance of developing a clot around it due to the smaller vessel size (especially in infants and young children). In some instances, a clot can form in the arm or in the left leg with the latter extending into the major vein of the abdomen. Plaque formation is not frequently seen in children but there can be compression at the inlet of the chest.

Doppler ultrasound images can help the physician to see and evaluate:

Blockages to blood flow (such as clots).

Narrowing of vessels.

Tumors and congenital vascular malformations.

Equipment look like

Ultrasound scanners consist of a console containing a computer and electronics, a video display screen and a transducer that is used to do the scanning. The transducer is a small hand-held device that resembles a microphone, attached to the scanner by a cord. The transducer sends out inaudible high frequency sound waves into the body and then listens for the returning echoes from the tissues in the body. The principles are similar to sonar used by boats and submarines.

The ultrasound image is immediately visible on a video display screen that looks like a computer or television monitor. The image is created based on the amplitude (loudness), frequency (pitch) and time it takes for the ultrasound signal to return from the area of the patient being examined to the transducer (the device used to examine the patient), as well as the type of body structure and composition of body tissue through which the sound travels. A small amount of gel is put on the skin to allow the sound waves to travel back and forth from the transducer.