The research in computer vision and image recognition has made substantial progress in the medical sector during the past few years. Medical imaging is the process of producing images of the internal structure of the body without even performing complex procedures.
There are millions of imaging procedures performed worldwide. The images are produced using fast processors that convert energies to signals arithmetically and logically. These signals are later converted into digital images representing different structures inside the body.
Studies are showing that a doctor can give different results depending on the time of the day and if he/she is tired or not. However, machines are independent of such variables and provide the same results every time. Medical imaging is advancing rapidly because of the increasing advancements in the image processing field, including image recognition, enhancement, and analysis.
The digital images produced for medical purposes offer several advantages, including fast processing, cost-effective disease diagnosis, secure storage, excellent communication, immediate assessment, adaptable events, multiple copying, and accurate results.
Top 5 Use Cases of Medical Imaging
Let’s have a look at some of the popular analysis methods of medical imaging for diagnosing and analyzing severe diseases:
Using image recognition to analyze the structure of the heart can reveal the risk of cardiovascular disease for an individual. This modern technology can quickly identify the heart problems that can only be addressed with the help of a surgery or a pharmacological placement. Medical imaging automates the detection of abnormalities in the cardiovascular region with the help of a chest x-ray. This leads to a quick decision-making process as well as minimal diagnostic errors.
The application of neuroimaging helps doctors develop a computer-aided diagnosis of complex neurological diseases. The adaptability and ease of this approach have led to significant advances in understanding psychiatric and neurological dysfunctions. Degenerative neurological disorders such as ALS are usually devastating diagnosis for patients. Although, there is no proper cure available for this disease, accurate diagnosis using medical imaging can help patients in understanding the likable outcome as well as plan an adequate long-term care system for their life.
Fractures and Other Injuries
Fractures and other serious injuries can possess long term life risks if left untreated. Using medical imaging to locate hard-to-identify fractures, soft-tissue injuries, and dislocations allow surgeons to be more confident while performing procedures and prescribing a particular treatment. MRIs and x-rays provide a quick diagnosis to analyze the complexity of the fractured location that is causing discomfort in the body.
All Kind of Cancers
There are millions of people who recover from cancer every year. Cancer was considered to be an incurable disease before the advent of medical imaging in the healthcare sector. Image recognition has made it possible to perform CT scans, MRIs, and X-rays for almost all kinds of cancers. The images show the risk scores for areas of concern by highlighting the regions in different colors so that doctors can accurately categorize the stages of the disease.
Fatal Conditions and Complications
Pneumonia is considered to be a life-threatening disease if it does not get quick attention from doctors. Radiology images are widely used to diagnose the stage of pneumonia and distinguish it from other lung diseases. The AI algorithms can assess x-rays and other images to provide data about the regions that can easily be overlooked, such as the ones that lie below the dome of the diaphragms on front chest radiographs. Doctors can also track the progress and recovery of patients using image recognition algorithms.