Echography Ultrasound Two-dimensional

Two-dimensional ultrasound (also known as ultrasound scanning) is a medical imaging technique that uses sound waves to create images of human internal organs and tissues. This method is based on the principle of reflection of ultrasonic waves from tissues of different densities and propagation speeds.

Two-dimensional ultrasound echography is carried out using a special device that emits ultrasound waves and receives their reflection from various tissues. The data obtained is processed by a computer to create an image of the internal structure of the organ or tissue.

This method is widely used in medicine to diagnose various diseases such as tumors, cysts, kidney stones and others. Sonography can also be used to monitor treatment and evaluate the effectiveness of therapy.

One of the main advantages of two-dimensional ultrasound echography is its safety and painlessness. Ultrasonic waves do not have any harmful effects on the body, which makes this method especially suitable for pregnant women and children.

However, like any other medical imaging method, two-dimensional ultrasound echography has its limitations. For example, it cannot be used to diagnose diseases that do not have ultrasound reflections, such as some types of tumors. In addition, echography may not provide a complete picture of the disease if it is outside the range of ultrasonic waves.

In general, two-dimensional ultrasound echography is an important tool in the diagnosis and treatment of many diseases. It is safe, painless and widely available in many medical institutions.

ULTRASONIC 2-DIMENSIONAL ECHOGRAPHY

Echography, also known as echolocation, is a method of determining the location of objects in space using special ultrasonic waves. Scanners used in echography work on the principle of reflecting sound waves from the tissue of interest, which