Magnetic resonance imaging
(Redirected from Nuclear scanning)
Magnetic resonance imaging | |
---|---|
Specialty | {{#statements:P1995}} |
MeSH | D008279 |
Magnetic Resonance Imaging (MRI) is a medical imaging technique used in radiology to form pictures of the anatomy and the physiological processes of the body. MRI scanners use strong magnetic fields, magnetic field gradients, and radio waves to generate images of the organs in the body.
History[edit | edit source]
MRI developed from the principles of Nuclear Magnetic Resonance (NMR), a technique used by scientists to study the properties of atomic nuclei. The development of MRI as a medical tool began in the 1970s and was credited to the work of Dr. Raymond Damadian, who created the first MRI scan in 1977.
Principles[edit | edit source]
MRI is based on the principles of NMR, which involves the alignment of magnetized nuclei in a strong magnetic field. When these nuclei are subjected to a second oscillating magnetic field, they produce a rotating magnetic field detectable by the scanner. This signal is used to construct an image of the scanned area of the body.
Procedure[edit | edit source]
During an MRI scan, the patient lies in a large magnet bore. A radiofrequency coil is used to send signals to the body and receive them back. The returning signals are converted into images by a computer attached to the MRI scanner. The quality of the MRI image is dependent on signal strength and field homogeneity.
Applications[edit | edit source]
MRI is widely used in hospitals and clinics for medical diagnosis, staging of disease, and follow-up without exposure to ionizing radiation. It is particularly useful for the imaging of the brain, spine, and joints, as well as soft tissues of the musculoskeletal system.
Safety[edit | edit source]
MRI is generally safe; it does not involve exposure to ionizing radiation, such as X-rays. However, the presence of strong magnetic fields requires that metal objects are not present in the scanner, and patients with certain types of medical implants, such as pacemakers, may not be suitable candidates for an MRI.
Advancements[edit | edit source]
Recent advancements in MRI technology include high-field MRI, functional MRI (fMRI), which measures brain activity by detecting changes associated with blood flow, and real-time MRI, which provides images in real time.
Challenges[edit | edit source]
Challenges in MRI technology include reducing scan time, improving image quality, and making MRI accessible in terms of cost and availability.
See also[edit | edit source]
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