To develop and retrospectively validate an artificial intelligence-based decision support system (AI-DSS) for optimising prostate biopsy decisions and improving benefit-to-harm ratios.
This retrospective, multicentre, multiscanner study used data from 1022 patients. An AI-DSS integrating PI-RADS scores, automated prostate-specific antigen density (PSAd), and deep-learning imaging risk scores was developed on 770 cases and validated on an independent cohort of 252 men from six UK centres. The AI-DSS performance was benchmarked against the real-world clinical decisions (reference standard) using grade selectivity, biopsy efficiency, and selective biopsy avoidance as outcome measures. Biopsy-proven detection of grade group (GG) ≥ 2 disease was the reference standard.
In the validation cohort of 252 patients (mean age, 67.3 years), 137 underwent biopsy and 79 (31%) harboured ≥ GG2 disease. Compared to the reference standard, the AI-DSS at the 31% cancer detection rate (CDR) would have avoided 28 biopsies while missing one ≥ GG2 cancer. This corresponded to a 70% increase in grade selectivity (from 4.6 to 7.8), 79% increase in biopsy efficiency (from 1.4 to 2.5), and a 143% increase in selective biopsy avoidance (from 2.8 to 6.8). At the reduced CDR of 30%, grade selectivity, biopsy efficiency, and selective biopsy avoidance increased by 172%, 236%, and 475%, with four ≥ GG2 cancers missed.
An AI-DSS that integrates clinical and advanced imaging data improves the benefit-to-harm ratio of prostate biopsy decisions in a retrospective setting. Future prospective validation as part of real-world clinical workflow is required to enable clinical implementation.
Question Current prostate cancer diagnostic pathways result in fewer unnecessary biopsies. Can an AI decision support system (AI-DSS) further improve biopsy efficiency for detecting significant cancer? Findings An AI-DSS avoided 28 biopsies in a 252-patient cohort, increasing grade selectivity, biopsy efficiency, and selective biopsy avoidance by 70%, 79%, and 143%, respectively. Clinical relevance Integrating an AI-DSS into clinical workflows may further reduce unnecessary prostate biopsies and overdiagnosis of indolent disease, thus potentially improving the efficiency of the prostate cancer diagnostic pathway.
European radiology. 2026 Feb 20 [Epub ahead of print]
Nikita Sushentsev, Zobair Arya, Jobie Budd, Amy Frary, Nadia Moreira da Silva, Mirjana Ferrer Rodriguez, Paul Burn, Richard Hindley, Nikhil Vasdev, Mohamed Ibrahim, Alison Bradley, Adrian Andreou, Sidath Liyanage, Raj Persad, Jonathan Aning, Alexander B C D Ng, Aqua Asif, Veeru Kasivisvanathan, Tristan Barrett, Mark Hinton, Anwar Roshanali Padhani, Aarti Shah, Lucy Davies, Antony Rix, Evis Sala
Department of Radiology, Addenbrooke's Hospital and University of Cambridge, Cambridge, UK. ., Lucida Medical Ltd, Cambridge, UK., Somerset NHS Foundation Trust, Taunton, UK., University of Winchester, Winchester, UK., Department of Urology, Hertfordshire and Bedfordshire Urological Cancer Centre, Lister Hospital, Stevenage, UK., East and North Hertfordshire Teaching NHS Trust, Stevenage, UK., Royal Cornwall Hospitals NHS Trust, Truro, UK., Royal United Hospitals Bath NHS Foundation Trust, Bath, UK., Mid and South Essex NHS Foundation Trust, Southend, UK., North Bristol NHS Trust, Bristol, UK., Division of Surgery and Interventional Science, UCL, London, UK., Department of Radiology, Addenbrooke's Hospital and University of Cambridge, Cambridge, UK., Paul Strickland Scanner Centre, Mount Vernon Hospital, Northwood, UK., Hampshire Hospitals NHS Foundation Trust, Winchester, UK., Dipartimento Diagnostica per Immagini e Radioterapia Oncologica, Policlinico Universitario A. Gemelli IRCCS, Rome, Italy.