There are different types of ultrasound, each used depending on the current case and the organ that needs to be examined. The basic ultrasound machine has a transducer probe which receives and sends sound waves. It shows a two-dimensional image or presents the slice of a three-dimensional object. 3D ultrasound imaging has been developed wherein many two-dimensional images are taken through the use of probes moving along the body surface or inserted probes rotating simultaneously. The 2D scans will later be combined using specialized computer software, leading to 3D images.

The third kind of ultrasound is called the Doppler ultrasound which is based on the Doppler Effect. Once the object reflecting ultrasound waves moves, the frequency of the echoes change, thereby producing a higher frequency if moving toward the probe or a lower frequency if moving away from the probe. The frequency changed will depend on the speed of the moving object. Doppler ultrasound is then used to measure frequency change of echoes to identify the speed of moving objects. It comes in useful for measuring blood flow rate through major arteries and the heart.

Ultrasound machines are used for a variety of functions and settings, ranging from gynecology to oncology. It is very advantageous since structures can be observed and studied without the need for radiation. It is also faster compared to X-rays and other radiographic methods.

Some of the major uses in obstetrics and gynecology include measuring fetal size to know the due date, checking the placenta’s position to determine if it is not developing well over the uterus opening, identifying the gender of the baby, detecting ectopic pregnancy, determining if there is enough amniotic cushioning for the fetus and monitoring the fetus during special procedures like amniocentesis. In urology, ultrasound can be used to look for kidney stones and detect prostate cancer. In cardiology, blood flow can be measured in the heart and major blood vessels.

Ultrasound machines involve a non-invasive imaging procedure. It is painless, cost-effective and easy to use. Invasive procedures like needle biopsies can be done with the help of ultrasound as a guiding tool. There are no known dangerous effects that stem from ultrasound imaging. Since it has limited viewing power from air or bone, other imaging techniques will come in handier for bone and lung viewing.