AI detects prostate cancer more often than radiologists. Additionally, AI triggers false alarms half as often.
This is shown by an international study coordinated by Radboud University Medical Center and published in The Lancet Oncology.
This is the first large-scale study where an international team transparently evaluates and compares AI with radiologist assessments and clinical outcomes.
Radiologists face an increasing workload as men with a higher risk of prostate cancer now routinely receive a prostate MRI.
Diagnosing prostate cancer with MRI requires significant expertise, and there is a shortage of experienced radiologists. AI can assist with these challenges.
AI expert Henkjan Huisman and radiologist Maarten de Rooij, project leaders of the PI-CAI study, organised a major competition between AI teams and radiologists with an international team.
Along with other centres in the Netherlands and Norway, they provided over 10,000 MRI scans.
They transparently determined for each patient whether prostate cancer was present.
They allowed various groups worldwide to develop AI for analysing these images.
The top five submissions were combined into a super-algorithm for analysing MRI scans for prostate cancer.
Finally, AI assessments were compared to those of a group of radiologists on four hundred prostate MRI scans.
Accurate Diagnosis
The PI-CAI community brought together over two hundred AI teams and 62 radiologists from twenty countries.
They compared the findings of AI and radiologists not only with each other but also with a gold standard, as they monitored the outcomes of the men from whom the scans originated. On average, the men were followed for five years.
This first international study on AI in prostate diagnostics shows that AI detects nearly seven percent more significant prostate cancers than the group of radiologists.
Additionally, AI identifies suspicious areas, later found not to be cancer, fifty percent less often.
This means the number of biopsies could be halved with the use of AI. If these results are replicated in follow-up studies, it could greatly assist radiologists and patients in the future. It could reduce radiologists' workload, provide more accurate diagnoses, and minimise unnecessary prostate biopsies.
The developed AI still needs to be validated and is currently not yet available for patients in clinical settings.
Quality System
Huisman observes that society has little trust in AI. ‘This is because manufacturers sometimes build AI that isn't good enough’, he explains.
He is working on two things. The first is a public and transparent test to fairly evaluate AI. The second is a quality management system, similar to what exists in the aviation industry.
‘If planes almost collide, a safety committee will look at how to improve the system so that it doesn't happen in the future. I want the same for AI. I want to research and develop a system that learns from every mistake so that AI is monitored and can continue to improve. That way, we can build trust in AI for healthcare. Optimal, governed AI can help make healthcare better and more efficient.’
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