Medical Imaging takes 617 marks for admission.
Extended knowledge:
Introduction of Medical Imaging
Medical Imaging, is the study of medical imaging with the help of some kind of media (such as X-rays, electromagnetic fields, ultrasound, etc.) and the human body interact with the human body, put the Medical Imaging is the study of the interaction between the human body and some media (such as X-rays, electromagnetic fields, ultrasound, etc.), the structure and density of the internal tissues and organs of the human body in the form of images for diagnostic physicians to judge the information provided by the images, so as to evaluate the health of the human body a science, including medical imaging systems and medical image processing two relatively independent research direction.
Medical imaging, also known as silver halide imaging, because the former film (film) is a light-sensitive material with silver halide chemical photosensitive imaging.
Diagnosis mainly includes fluoroscopy, radiographs, CT, MRI, ultrasound, digital subtraction, and angiography.
Treatment is mainly applied in terms of interventional therapy and radiotherapy.
In addition to medical applications, imaging combined with other academic fields, such as cognitive psychology, linguistics, education, and sociology, allows researchers to explore human brain activity during cognitive behavior. Such research has gradually taken shape, and is known in the academic world as cognitive neuroscience (cognitive neuroscience).
Many of the techniques used in medical imaging have found wide application in the scientific research industry. The development of medical imaging has benefited from the rapid advances in modern computer technology, and its combination with image processing, computer vision, and pattern recognition techniques has given rise to a new branch of computer technology, medical image processing.
Origin and development: In 1895, the German physicist R?ntgen discovered X-rays, which were soon used for human disease examination, and thus formed the diagnostic radiology. In the past 30 years, CT, MRI, ultrasound and nuclide imaging equipment in the continuous improvement of nuclear perfection, inspection technology and nuclear methods are also constantly innovating, diagnostic imaging has developed from a single dependence on morphological changes for diagnosis into a comprehensive diagnostic system integrating morphology, function, and metabolic changes as a whole.
At the same time, some new technologies, such as magnetic source imaging of the heart and brain, and new disciplines, such as molecular imaging, are constantly emerging, and the scope of diagnostic imaging is still developing and expanding.