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Next-Generation Morphometry for pathomics-data mining in histopathology

Author

Listed:
  • David L. Hölscher

    (RWTH Aachen University Clinic)

  • Nassim Bouteldja

    (RWTH Aachen University Clinic)

  • Mehdi Joodaki

    (RWTH Aachen University Clinic)

  • Maria L. Russo

    (Fondazione Ricerca Molinette)

  • Yu-Chia Lan

    (RWTH Aachen University Clinic)

  • Alireza Vafaei Sadr

    (RWTH Aachen University Clinic)

  • Mingbo Cheng

    (RWTH Aachen University Clinic)

  • Vladimir Tesar

    (1st Faculty of Medicine and General University Hospital, Charles University)

  • Saskia V. Stillfried

    (RWTH Aachen University Clinic)

  • Barbara M. Klinkhammer

    (RWTH Aachen University Clinic)

  • Jonathan Barratt

    (University Hospital of Leicester National Health Service Trust
    University of Leicester)

  • Jürgen Floege

    (RWTH Aachen University Clinic)

  • Ian S. D. Roberts

    (Oxford University Hospitals National Health Services Foundation Trust)

  • Rosanna Coppo

    (Fondazione Ricerca Molinette
    Regina Margherita Children’s University Hospital)

  • Ivan G. Costa

    (RWTH Aachen University Clinic)

  • Roman D. Bülow

    (RWTH Aachen University Clinic)

  • Peter Boor

    (RWTH Aachen University Clinic
    RWTH Aachen University Clinic)

Abstract

Pathology diagnostics relies on the assessment of morphology by trained experts, which remains subjective and qualitative. Here we developed a framework for large-scale histomorphometry (FLASH) performing deep learning-based semantic segmentation and subsequent large-scale extraction of interpretable, quantitative, morphometric features in non-tumour kidney histology. We use two internal and three external, multi-centre cohorts to analyse over 1000 kidney biopsies and nephrectomies. By associating morphometric features with clinical parameters, we confirm previous concepts and reveal unexpected relations. We show that the extracted features are independent predictors of long-term clinical outcomes in IgA-nephropathy. We introduce single-structure morphometric analysis by applying techniques from single-cell transcriptomics, identifying distinct glomerular populations and morphometric phenotypes along a trajectory of disease progression. Our study provides a concept for Next-generation Morphometry (NGM), enabling comprehensive quantitative pathology data mining, i.e., pathomics.

Suggested Citation

  • David L. Hölscher & Nassim Bouteldja & Mehdi Joodaki & Maria L. Russo & Yu-Chia Lan & Alireza Vafaei Sadr & Mingbo Cheng & Vladimir Tesar & Saskia V. Stillfried & Barbara M. Klinkhammer & Jonathan Bar, 2023. "Next-Generation Morphometry for pathomics-data mining in histopathology," Nature Communications, Nature, vol. 14(1), pages 1-14, December.
    • Handle: RePEc:nat:natcom:v:14:y:2023:i:1:d:10.1038_s41467-023-36173-0
    DOI: 10.1038/s41467-023-36173-0
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    References listed on IDEAS

    as
    1. Ming Y. Lu & Tiffany Y. Chen & Drew F. K. Williamson & Melissa Zhao & Maha Shady & Jana Lipkova & Faisal Mahmood, 2021. "AI-based pathology predicts origins for cancers of unknown primary," Nature, Nature, vol. 594(7861), pages 106-110, June.
    2. Chee-Huat Linus Eng & Michael Lawson & Qian Zhu & Ruben Dries & Noushin Koulena & Yodai Takei & Jina Yun & Christopher Cronin & Christoph Karp & Guo-Cheng Yuan & Long Cai, 2019. "Transcriptome-scale super-resolved imaging in tissues by RNA seqFISH+," Nature, Nature, vol. 568(7751), pages 235-239, April.
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