What are the different types of diagnostic imaging services?
Diagnostic imaging services are used to create images of the inner parts of the body. These images are used to diagnose diseases such as cancer or abnormalities in the structure of the body. Diagnostic imaging falls within the transmission, reflections or imaging of nuclear emissions and is based on technology and medical equipment used to create an image. X -ray rays are taken by browsing the electromagnetic beam to create an image. The bones will be white and the muscles will be gray. All other tissues and organs appear as dark spaces.
CT scan is a medical imaging process that uses X -rays and computers to display cross -section or slice of data. The data provide a more detailed picture of the body than the X -ray itself. These diagnostic imaging services are often used to discover injuries or brain tumors and can also be used to explore other internal organs.
Reflection displaying is formed when the body is sent high -frequency soundwaves. Sound waves reflect tissues and organs at different speeds based on tissue density and are monitored by computer programs. The sound waves are then assembled to create a visual image.
Sonographic display, also known as ultrasound display, is a known type of reflective display. Ultrasound is usually used to view images of unborn fruits, ultrasound can also be used to detect tumors in the liver or kidneys. Diagnostic imaging services that use sonograms can determine whether there are obstacles in blood flow and whether there is a problem of reduced organs.
Magnetic resonance imaging (MRI) is a type of nuclear emissions that involve the magnetization of protons in the body of body water molecules by scanner. The result is a high -contrast image that shows potential Issues in organs and soft tissues. Nuclear display is particularly useful in identifIcification of problems with blood flow and heart.
Another of the diagnostic imaging services that uses nuclear emissions is the positron emission tomography (PET). The patient is injected or swallowed by a small amount of radioactive material called radiopharmaceutical, and then travels to organs. As the material metabolizes, gamma emits rays. PET scanning is able to detect gamma beam emissions and convert data to a computer image. The figure is used to understand changes in the function and structure of the organ that can confirm the irregularities.