Artificial intelligence-based detection of lymph node metastases by PET/CT predicts prostate cancer-specific survival
Journal article, 2021
Introduction Lymph node metastases are a key prognostic factor in prostate cancer (PCa), but detecting lymph node lesions from PET/CT images is a subjective process resulting in inter-reader variability. Artificial intelligence (AI)-based methods can provide an objective image analysis. We aimed at developing and validating an AI-based tool for detection of lymph node lesions.
Methods A group of 399 patients with biopsy-proven PCa who had undergone(18)F-choline PET/CT for staging prior to treatment were used to train (n = 319) and test (n = 80) the AI-based tool. The tool consisted of convolutional neural networks using complete PET/CT scans as inputs. In the test set, the AI-based lymph node detections were compared to those of two independent readers. The association with PCa-specific survival was investigated. Results The AI-based tool detected more lymph node lesions than Reader B (98 vs. 87/117;p = .045) using Reader A as reference. AI-based tool and Reader A showed similar performance (90 vs. 87/111;p = .63) using Reader B as reference. The number of lymph node lesions detected by the AI-based tool, PSA, and curative treatment was significantly associated with PCa-specific survival.
Conclusion This study shows the feasibility of using an AI-based tool for automated and objective interpretation of PET/CT images that can provide assessments of lymph node lesions comparable with that of experienced readers and prognostic information in PCa patients.
Methods A group of 399 patients with biopsy-proven PCa who had undergone(18)F-choline PET/CT for staging prior to treatment were used to train (n = 319) and test (n = 80) the AI-based tool. The tool consisted of convolutional neural networks using complete PET/CT scans as inputs. In the test set, the AI-based lymph node detections were compared to those of two independent readers. The association with PCa-specific survival was investigated. Results The AI-based tool detected more lymph node lesions than Reader B (98 vs. 87/117;p = .045) using Reader A as reference. AI-based tool and Reader A showed similar performance (90 vs. 87/111;p = .63) using Reader B as reference. The number of lymph node lesions detected by the AI-based tool, PSA, and curative treatment was significantly associated with PCa-specific survival.
Conclusion This study shows the feasibility of using an AI-based tool for automated and objective interpretation of PET/CT images that can provide assessments of lymph node lesions comparable with that of experienced readers and prognostic information in PCa patients.
fluorocholine
PCa
artificial intelligence
PET
lymph node metastases
Author
Pablo Borrelli
Sahlgrenska University Hospital
Måns Larsson
Chalmers, Electrical Engineering, Signal Processing and Biomedical Engineering
Johannes Ulen
Eigenvision AB
Olof Enqvist
Chalmers, Electrical Engineering, Signal Processing and Biomedical Engineering
Elin Tragardh
Lund University
Skåne University Hospital
Mads Hvid Poulsen
University of Southern Denmark
Odense University Hospital
Mike Allan Mortensen
Odense Universitetshospital
Henrik Kjolhede
University of Gothenburg
Poul Flemming Hoilund-Carlsen
Odense Universitetshospital
University of Southern Denmark
Lars Edenbrandt
University of Gothenburg
Clinical Physiology and Functional Imaging
1475-0961 (ISSN) 1475097x (eISSN)
Vol. 41 1 62-67Areas of Advance
Health Engineering
Subject Categories
Urology and Nephrology
Radiology, Nuclear Medicine and Medical Imaging
Medical Image Processing
DOI
10.1111/cpf.12666
PubMed
32976691