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A histomorphological atlas of resected mesothelioma discovered by self-supervised learning from 3446 whole-slide images

Author

Listed:
  • Farzaneh Seyedshahi

    (University of Glasgow
    Cancer Research UK Scotland Institute)

  • Kai Rakovic

    (University of Glasgow
    Cancer Research UK Scotland Institute
    NHS Greater Glasgow and Clyde)

  • Nicolas Poulain

    (Cancer Research UK Scotland Institute)

  • Adalberto Claudio Quiros

    (University of Glasgow
    University of Glasgow)

  • Ian R. Powley

    (Cancer Research UK Scotland Institute)

  • Cathy Richards

    (University Hospitals of Leicester)

  • Hussein Uraiby

    (University Hospitals of Leicester)

  • Sonja Klebe

    (Flinders Health and Medical Research Institute)

  • David A. Moore

    (UCL Cancer Institute
    University College Hoapital)

  • Apostolos Nakas

    (University Hospitals of Leicester)

  • Claire R. Wilson

    (University of Leicester)

  • Marco Sereno

    (University of Leicester)

  • Leah Officer-Jones

    (Cancer Research UK Scotland Institute)

  • Catherine Ficken

    (Cancer Research UK Scotland Institute)

  • Ana Teodosio

    (University of Birmingham)

  • Fiona Ballantyne

    (Cancer Research UK Scotland Institute)

  • Daniel Murphy

    (University of Glasgow
    Cancer Research UK Scotland Institute)

  • Ke Yuan

    (University of Glasgow
    Cancer Research UK Scotland Institute
    University of Glasgow)

  • John Quesne

    (University of Glasgow
    Cancer Research UK Scotland Institute
    NHS Greater Glasgow and Clyde)

Abstract

Mesothelioma is a highly lethal and poorly biologically understood disease which presents diagnostic challenges due to its morphological complexity. This study uses self-supervised AI (Artificial Intelligence) to map the histomorphological landscape of the disease. The resulting atlas consists of recurrent patterns identified from 3446 Hematoxylin and Eosin (H&E) stained images scanned from resected tumour slides. These patterns generate highly interpretable predictions, achieving state-of-the-art performance with 0.65 concordance index (c-index) for outcomes and 88% AUC in subtyping. Their clinical relevance is endorsed by comprehensive human pathological assessment. Furthermore, we characterise the molecular underpinnings of these diverse, meaningful, predictive patterns. Our approach both improves diagnosis and deepens our understanding of mesothelioma biology, highlighting the power of this self-learning method in clinical applications and scientific discovery.

Suggested Citation

  • Farzaneh Seyedshahi & Kai Rakovic & Nicolas Poulain & Adalberto Claudio Quiros & Ian R. Powley & Cathy Richards & Hussein Uraiby & Sonja Klebe & David A. Moore & Apostolos Nakas & Claire R. Wilson & M, 2025. "A histomorphological atlas of resected mesothelioma discovered by self-supervised learning from 3446 whole-slide images," Nature Communications, Nature, vol. 16(1), pages 1-14, December.
    • Handle: RePEc:nat:natcom:v:16:y:2025:i:1:d:10.1038_s41467-025-63846-9
    DOI: 10.1038/s41467-025-63846-9
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