PUBLISHER: Knowledge Sourcing Intelligence | PRODUCT CODE: 1279626
PUBLISHER: Knowledge Sourcing Intelligence | PRODUCT CODE: 1279626
AI in radiology market is expected to grow at a CAGR of 29.4% from a market size of US$1,058.824 million in 2021 to reach US$6,433.214 million in 2028. Deep learning algorithms used in artificial intelligence (AI) have made significant advancements in visual identification applications. The domain of medical image analysis is developing quickly due to several implementations of techniques like variational autoencoders and convolutional neural networks. In contrast to traditional qualitative evaluations of radiographic qualities, AI techniques excel at automatically spotting intricate patterns in imaging data. In radiology, artificial intelligence (AI) algorithms are created to quantify particular radiographic properties, such as the 3D geometry of a tumor or the intratumoral texture and distribution of pixel intensities.
In radiography, qualified medical professionals visually evaluate medical pictures and record conclusions to locate, describe, and track diseases. Such evaluation is frequently dependent on knowledge and experience and is occasionally susceptible to opinion. In comparison to such subjective analysis, AI is excellent at seeing intricate patterns in imaging data and can automatically deliver a quantitative assessment. When AI is incorporated into the medical system as a tool to aid doctors, radiological assessments can then be conducted with greater accuracy and reproducibility.
The use of artificial intelligence (AI) in medical imaging, including image processing, radiography, and interpretation, is one of the most prospective sectors of health innovation. As technology progresses in many areas of healthcare, software integrating artificial intelligence (AI), such as machine learning (ML) technology and systems, has become an increasingly important part of several medical equipment. The capacity of machine learning to derive useful and essential insights from the enormous amounts of data acquired daily in the healthcare industry is one of its most important advantages. When applied to radiology data such as traditional radiography, CT, MRI, and PET scans as well as radiology reports, machine learning systems, and the software automatically recognize complicated patterns and assist doctors in making informed decisions.
Furthermore, there are several start-ups that have received support from the government to promote AI for radiology purposes. For instance, Qure.ai, an Indian start-up started in 2016 and supported by the Indian government, employs deep learning algorithms to analyze CT, X-ray, and MRI images to detect disease and generate automated diagnostic reports. The company has received support from the government through the NITI Aayog, a government resource center, and its radiology solutions have been implemented in several states of India.
Using volumetric tumor segmentation as the basis for its work, artificial intelligence (AI) can help enhance the identification and detection of brain tumors and other neurological cancers with high accuracy and consistency. The system can also automatically locate brain tumors on MRI scans. These methods can be very helpful in making accurate diagnoses as well as helping to track the effectiveness of tumor therapy in a repeatable and unbiased manner. Outcome prediction is another way AI is used in neuro-oncology. Machine learning techniques have been developed to forecast preoperative glioma survival using MRI-based blood volume distribution data.
Based on geography, the AI in radiology market is segmented into North America, South America, Europe, the Middle East and Africa, and Asia Pacific. Due to increased research spending and advancements in the medical and biotech industries in the area, the Asia Pacific is anticipated to hold significant shares of the AI in radiology market. Additionally, the presence of a sizable patient base is anticipated to boost the requirement for enhanced treatment facilities and stimulate the growth of the healthcare sector, which will assist the expansion of AI in radiology in the area. The market in Asia Pacific has also benefited from expenditure in the healthcare sector, particularly to develop and incorporate new technological improvements. The region's economies are putting more of an emphasis on building a strong healthcare system for patient diagnosis and treatment.