Effective reduction of unnecessary biopsies through a deep-learning-assisted aggressive prostate cancer detector

ProCAncer-I Consortium; Nuno M. Rodrigues; José Guilherme de Almeida; Ana Sofia Castro Verde; Ana Mascarenhas Gaivão; Carlos Bireiro; Inês Santiago; Joana Ip; Sara Belião; Celso Matos; Leonardo Vanneschi; Manolis Tsiknakis; Kostas Marias; Daniele Regge; Sara Silva; Nickolas Papanikolaou

doi:10.1038/s41598-025-99795-y

Effective reduction of unnecessary biopsies through a deep-learning-assisted aggressive prostate cancer detector

ProCAncer-I Consortium, Nuno M. Rodrigues, José Guilherme de Almeida, Ana Sofia Castro Verde, Ana Mascarenhas Gaivão, Carlos Bireiro, Inês Santiago, Joana Ip, Sara Belião, Celso Matos, Leonardo Vanneschi, Manolis Tsiknakis, Kostas Marias, Daniele Regge, Sara Silva, Nickolas Papanikolaou

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Abstract

Despite being one of the most prevalent cancers, prostate cancer (PCa) shows a significantly high survival rate, provided there is timely detection and treatment. Currently, several screening and diagnostic tests are required to be carried out in order to detect PCa. These tests are often invasive, requiring either a biopsy (Gleason score and ISUP) or blood tests (PSA). Computational methods have been shown to help this process, using multiparametric MRI (mpMRI) data to detect PCa, effectively providing value during the diagnosis and monitoring stages. While delineating lesions requires a high degree of experience and expertise from the radiologists, being subject to a high degree of inter-observer variability, often leading to inconsistent readings, these computational models can leverage the information from mpMRI to locate the lesions with a high degree of certainty. By considering as positive samples only those that have an ISUP
2 we can train aggressive index lesion detection models. The main advantage of this approach is that, by focusing only on aggressive disease, the output of such a model can also be seen as an indication for biopsy, effectively reducing unnecessary biopsy screenings. In this work, we utilize both the highly heterogeneous ProstateNet dataset, and the PI-CAI dataset, to develop accurate aggressive disease detection models.

Original language	English
Article number	15211
Pages (from-to)	1-15
Number of pages	15
Journal	Scientific Reports
Volume	15
DOIs	https://doi.org/10.1038/s41598-025-99795-y
Publication status	Published - 30 Apr 2025

Keywords

Cancer imaging
Machine learning
Prostate cancer

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

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ProCAncer-I Consortium, Rodrigues, N. M., Almeida, J. G. D., Verde, A. S. C., Gaivão, A. M., Bireiro, C., Santiago, I., Ip, J., Belião, S., Matos, C., Vanneschi, L., Tsiknakis, M., Marias, K., Regge, D., Silva, S., & Papanikolaou, N. (2025). Effective reduction of unnecessary biopsies through a deep-learning-assisted aggressive prostate cancer detector. Scientific Reports, 15, 1-15. Article 15211. https://doi.org/10.1038/s41598-025-99795-y

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abstract = "Despite being one of the most prevalent cancers, prostate cancer (PCa) shows a significantly high survival rate, provided there is timely detection and treatment. Currently, several screening and diagnostic tests are required to be carried out in order to detect PCa. These tests are often invasive, requiring either a biopsy (Gleason score and ISUP) or blood tests (PSA). Computational methods have been shown to help this process, using multiparametric MRI (mpMRI) data to detect PCa, effectively providing value during the diagnosis and monitoring stages. While delineating lesions requires a high degree of experience and expertise from the radiologists, being subject to a high degree of inter-observer variability, often leading to inconsistent readings, these computational models can leverage the information from mpMRI to locate the lesions with a high degree of certainty. By considering as positive samples only those that have an ISUP2 we can train aggressive index lesion detection models. The main advantage of this approach is that, by focusing only on aggressive disease, the output of such a model can also be seen as an indication for biopsy, effectively reducing unnecessary biopsy screenings. In this work, we utilize both the highly heterogeneous ProstateNet dataset, and the PI-CAI dataset, to develop accurate aggressive disease detection models.",

keywords = "Cancer imaging, Machine learning, Prostate cancer",

author = "{ProCAncer-I Consortium} and Rodrigues, {Nuno M.} and Almeida, {Jos{\'e} Guilherme de} and Verde, {Ana Sofia Castro} and Gaiv{\~a}o, {Ana Mascarenhas} and Carlos Bireiro and In{\^e}s Santiago and Joana Ip and Sara Beli{\~a}o and Celso Matos and Leonardo Vanneschi and Manolis Tsiknakis and Kostas Marias and Daniele Regge and Sara Silva and Nickolas Papanikolaou",

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ProCAncer-I Consortium, Rodrigues, NM, Almeida, JGD, Verde, ASC, Gaivão, AM, Bireiro, C, Santiago, I, Ip, J, Belião, S, Matos, C, Vanneschi, L, Tsiknakis, M, Marias, K, Regge, D, Silva, S & Papanikolaou, N 2025, 'Effective reduction of unnecessary biopsies through a deep-learning-assisted aggressive prostate cancer detector', Scientific Reports, vol. 15, 15211, pp. 1-15. https://doi.org/10.1038/s41598-025-99795-y

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AU - Matos, Celso

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AU - Papanikolaou, Nickolas

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N2 - Despite being one of the most prevalent cancers, prostate cancer (PCa) shows a significantly high survival rate, provided there is timely detection and treatment. Currently, several screening and diagnostic tests are required to be carried out in order to detect PCa. These tests are often invasive, requiring either a biopsy (Gleason score and ISUP) or blood tests (PSA). Computational methods have been shown to help this process, using multiparametric MRI (mpMRI) data to detect PCa, effectively providing value during the diagnosis and monitoring stages. While delineating lesions requires a high degree of experience and expertise from the radiologists, being subject to a high degree of inter-observer variability, often leading to inconsistent readings, these computational models can leverage the information from mpMRI to locate the lesions with a high degree of certainty. By considering as positive samples only those that have an ISUP2 we can train aggressive index lesion detection models. The main advantage of this approach is that, by focusing only on aggressive disease, the output of such a model can also be seen as an indication for biopsy, effectively reducing unnecessary biopsy screenings. In this work, we utilize both the highly heterogeneous ProstateNet dataset, and the PI-CAI dataset, to develop accurate aggressive disease detection models.

AB - Despite being one of the most prevalent cancers, prostate cancer (PCa) shows a significantly high survival rate, provided there is timely detection and treatment. Currently, several screening and diagnostic tests are required to be carried out in order to detect PCa. These tests are often invasive, requiring either a biopsy (Gleason score and ISUP) or blood tests (PSA). Computational methods have been shown to help this process, using multiparametric MRI (mpMRI) data to detect PCa, effectively providing value during the diagnosis and monitoring stages. While delineating lesions requires a high degree of experience and expertise from the radiologists, being subject to a high degree of inter-observer variability, often leading to inconsistent readings, these computational models can leverage the information from mpMRI to locate the lesions with a high degree of certainty. By considering as positive samples only those that have an ISUP2 we can train aggressive index lesion detection models. The main advantage of this approach is that, by focusing only on aggressive disease, the output of such a model can also be seen as an indication for biopsy, effectively reducing unnecessary biopsy screenings. In this work, we utilize both the highly heterogeneous ProstateNet dataset, and the PI-CAI dataset, to develop accurate aggressive disease detection models.

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KW - Machine learning

KW - Prostate cancer

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Effective reduction of unnecessary biopsies through a deep-learning-assisted aggressive prostate cancer detector

Abstract

Keywords

UN SDGs

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