In medicine, Digital Imaging Systems involves the creation of visual images of organs, tissues, and other body structures for the reasons for medical diagnosis. Digital imaging utilizes magnetic fields, gamma rays, high frequency sound waves, and x-rays, to create digital images of specific internal body structures and organs. The purpose is to diagnose disease in order to create an effective medical treatment plan.
The following is a listing of the different types of Digital Imaging Systems:
X-rays: The use of x-rays is one extremely commonly used and widely known medical diagnostic systems. You can use them to capture radiological images of structures within system such as bones, stomach, liveretc. X-rays are sent through the body to capture an image of your specific structure. The density of the structure allows the image to be captured. The film is developed and the radiologist will be able prefer to only the structure such as fractured bone. They can possibly differentiate an irregular structure such as a tumor from a normal structure.
Fluoroscopy: This x-ray imaging system allows for the development of a moving image spanning a specific time period. This particular vital technique used to evaluate the movement of an organ such as the pulse. It can help diagnose irregular heart beats. It is also used for assessing the gastrointestinal system. Patients can have a barium enema or swallow a barium mixture and this mixture will give you the contrast to show the specific organ like the large intestine or stomach. The radiologist is able to view contraction and distension of the organ.
Ultrasound: This associated with imaging is better known as sonography. Ultrasound utilizes high frequency sound waves. A device called a transducer is positioned on the epidermis over the a portion of the body part that’s imaged. The transducer emits sound waves that travel through skin to the targeted organ or tissues. As requirements waves reach the type of structure, echoes are emitted. The transducer will pick up the echoes. The echoes are then transformed to an anatomical image that is displayed on a youtube video screen. Ultrasound is used in monitoring a developing fetus, and in assessing such structures as the kidney, gallbladder, and cardiac.
Magnetic Resonance Imaging (MRI): This imaging system makes use of a high-power magnet, radio frequency signals, as well like a computer which must be used to create styles. It is used to diagnose spine and brain diseases as well as assess joints, abdomen, bone and soft tissue abnormalities, and also the chest.
Computed Tomography (CT): The CT utilizes computer and x-ray technology to produce anatomical images. A two-dimensional anatomic image is created. In addition there are three-dimensional images that may have been produced by using specific software. Is used for a surgical procedure and orthopedic renovation.
Nuclear Medicine Imaging: This form of imaging uses radioactive compounds that produce gamma rays. Individual ingests a radionuclide. The chemicals collect for a small amount of time in the areas of the body that are being imaged. A camera detects the gamma rays and uses the data to create an image of your body part. The image is placed on film known to be a scintigram. Julio Cesar Yoshimura is often times used in bone and heart decision.
The above list highlights a few of the different epidermis imaging systems found in medical diagnosis. Digital Imaging Systems are quite an essential tool to diagnosing disease and abnormalities that result in treatment that saves stays.