In the past, the medical specialty of radiology has seen several highly significant and impactful technological innovations that have influenced how medical imaging is used. Artificial intelligence (AI) is another prospective advancement that will significantly impact radiology practice. The historical progression of several essential changes in radiography is outlined in this essay as context to how AI may be incorporated into practice. AI’s potential new capabilities provide exciting possibilities for more efficient and effective medical imaging utilization.

AI in medical imaging

Application of AI:

●               The application of artificial intelligence in diagnostic medical imaging is now being researched. AI has demonstrated outstanding sensitivity and accuracy in detecting imaging abnormalities, and it has the potential to improve tissue-based detection and characterization. However, when sensitivity improves, a significant disadvantage emerges in detecting tiny changes of unclear importance. An investigation of screening mammograms, for example, found that while artificial neural networks are no more accurate than radiologists at identifying cancer, they consistently exhibit superior sensitivity for abnormal results, particularly for small lesions.

●               To guarantee the successful and safe integration of AI-assisted diagnostic imaging into clinical practice, the medical community must foresee the possible unknowns of this technology from the start of the revolution.

It will need careful consideration of AI’s possible dangers in the context of its unique skills to define its place in clinical medicine, and straddling the line between better detection and overdiagnosis will not be simple. Continuous use of out-of-sample external validation and well-defined cohorts is essential to improve the quality and interpretability of AI studies.

●               Many AI imaging studies now calculate sensitivity and specificity to measure diagnostic accuracy, whereas others analyze clinically significant outcomes. And more relevant outcome variables include new diagnoses of severe disease, disease needing treatment, or diseases likely to impair long-term survival, as AI typically discovers subtle picture abnormalities. Clinically significant events—symptoms, the need for disease-modifying medication, and mortality—significantly impact the quality of life and should focus on AI-based research. 

●               Even though considerable research suggests that AI has greater specificity and lower recall rates than traditional reading, such studies seldom consider the kind and biological aggressiveness of a lesion when determining accuracy and sensitivity, as a result of detecting modest changes that might signal preclinical or indolent illness, non-patient-centric endpoint selection may boost sensitivity at the risk of raising false positives and perhaps over diagnosis.

An issue with AI:

●               One significant problem is that, unlike distinct conclusions acquired from advanced traditional radiography investigations, AI may detect imaging pattern alterations that are difficult to detect by humans. Machine learning-based brain MRI analysis, for example, can detect tissue alterations indicative of early ischemic stroke within a small time frame from symptom onset with more sensitivity than a human reader. Despite the promise of early detection by machine learning, the link between highly subtle parenchymal brain abnormalities discovered by AI, whether in the natural history of tiny developing infarcts or non-ischemic processes and gross neurological squeal, remains unclear. 

Conclusion

More research is needed to see if AI-defined cerebral alterations suggestive of early ischemia correspond with a distinct profile of neurologic impairment or benefit from thrombolytic. In addition, challenging situations may arise if a therapy suggestion is made without a well-defined abnormality discovered by routine imaging.

Such discrepancies may generate patient bewilderment and mistrust, necessitating public education on the novel idea of deep learning in image analysis. If AI becomes the standard of care, it might also result in medical liability difficulties (such as failure to diagnose or potentially unimportant surgery).

The public, particularly physicians, should be reassured that while AI is unlikely to replace radiologists, a radiologist who employs AI may be more productive than one who does not.

Infosearch has huge experience in annotation, labelling and tagging services for various industries including medical industry. Write to us to discuss your requirement.


Contact Us