There are cases where x-ray machines cannot diagnose issues like damage to the muscles, soft tissues, or internal organ damage. However, with a CT scan, it is possible to see the internal organ and tissue damage. X-ray images come in 2D while CT scan images are in 3D. In a CT scan, the machine rotates all around the patient upon an axis and takes 2D pictures from many different angles.
After that the computer dedicated to the CT scan will assemble all the 2D images which are cross-sectional in nature and composites them, creating a 3D image of the inside of the body.
This shows the doctor the presence of injury or illness in the patient with radiology services in Gurgaon. Both x-rays and CT scans employ a tiny dose of ionizing radiation in order to produce their images. However, an MRI does not function like that. It will use extremely powerful magnets as well as radio waves in order to create the inside images in place of ionizing radiation. The MRI machine utilizes a magnetic field that will make the protons in your body line up.
Then there are short bursts of radio waves directed at the protons which make them relay a signal that the MRI scanner receives. After this, the computer will process the signal and create a 3D image of the examined part of the body.
An MRI is the most sophisticated of the available radiology services in Gurgaon. While a CT scan, like an x-ray, can often take as little as 5 minutes, an MRI scan will take at least 30 minutes. MRI scans and CT scans are used for different reasons by doctors.
If the chest, head, fractures, or abdomen is injured, A CT scan is preferred. CT scans can also detect the presence of and location of a tumor. An MRI does a stellar job of locating and showing different problems in the soft tissues, joints, ligaments, neck, and abdomen.
Each section or slice of images can be viewed individually to get a better visualization and overall picture of the body. CT scan images can provide much more information than plain X-rays and other diagnostic imaging,. To learn more about the differences between the diagnostic imaging tests that we offer, and what to expect, call Independent Imaging at to request an appointment, or use our request an appointment tool.
ACR accreditation is the gold standard in medical imaging. Independent Imaging is an ACR-accredited facility that also supports a number of initiatives to improve image quality, safety, and patient care.
Search this website. Providers Portal Online Bill Pay. Call Today Patient Forms Request an Appointment. Ultrasound Ultrasound technology is a great diagnostic tool for seeing live images of the working structures of the body, especially the structures of joints within the body.
Magnetic Resonance Imaging MRI An MRI uses a powerful magnetic field combined with specific radio frequencies to create detailed images of internal body structures with the aid of a sophisticated computing system. Computed Tomography CT Scan Computed Tomography technology was originally created for taking detailed pictures of the brain. CT scan images can provide much more information than plain X-rays and other diagnostic imaging, To learn more about the differences between the diagnostic imaging tests that we offer, and what to expect, call Independent Imaging at to request an appointment, or use our request an appointment tool.
Patient Education Want to know more about your test and what we are looking for? Find your condition or procedure in our online library. They pass easily through soft tissue such as organs and muscles. Additionally, sometimes a person ingests or is injected with an opaque X-ray fluid that will fill a space of interest for X-ray imaging. A computerized tomography CT scan is usually a series of X-rays taken from different angles and then assembled into a three-dimensional model by a computer.
Tomography means a picture of a slice. While an X-ray may show edges of soft tissues all stacked on top of each other, the computer used for a CT scan can figure out how those edges relate to each other in space, so the CT image is more useful for understanding blood vessels and soft tissue. Another kind of CT scan uses positrons. I have to mention this because positrons are antimatter electrons. Yes, antimatter does exist, and it is useful!
In positron emission tomography PET , a person is injected with a tracer—a special dye containing a positron-emitting radionuclide radioactive material —and the organs and tissues absorb this tracer.
0コメント