Next-Generation Morphometry for pathomics-data mining in histopathology

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 Barratt; Jürgen Floege; Ian S.D. Roberts; Rosanna Coppo; Ivan G. Costa; Roman D. Bülow; Peter Boor

doi:10.1038/s41467-023-36173-0

Next-Generation Morphometry for pathomics-data mining in histopathology

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 Barratt
, Jürgen Floege
, Ian S.D. Roberts
, Rosanna Coppo
, Ivan G. Costa
, Roman D. Bülow
, Peter Boor

Department of Public Health Sciences

Research output: Contribution to journal › Article › peer-review

93 Scopus citations

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.

Original language	English (US)
Article number	470
Journal	Nature communications
Volume	14
Issue number	1
DOIs	https://doi.org/10.1038/s41467-023-36173-0
State	Published - Dec 2023

All Science Journal Classification (ASJC) codes

General Chemistry
General Biochemistry, Genetics and Molecular Biology
General Physics and Astronomy

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10.1038/s41467-023-36173-0

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Hölscher, D. L., Bouteldja, N., Joodaki, M., Russo, M. L., Lan, Y. C., Sadr, A. V., Cheng, M., Tesar, V., Stillfried, S. V., Klinkhammer, B. M., Barratt, J., Floege, J., Roberts, I. S. D., Coppo, R., Costa, I. G., Bülow, R. D., & Boor, P. (2023). Next-Generation Morphometry for pathomics-data mining in histopathology. Nature communications, 14(1), Article 470. https://doi.org/10.1038/s41467-023-36173-0

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title = "Next-Generation Morphometry for pathomics-data mining in histopathology",

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.",

author = "H{\"o}lscher, \{David L.\} and Nassim Bouteldja and Mehdi Joodaki and Russo, \{Maria L.\} and Lan, \{Yu Chia\} and Sadr, \{Alireza Vafaei\} and Mingbo Cheng and Vladimir Tesar and Stillfried, \{Saskia V.\} and Klinkhammer, \{Barbara M.\} and Jonathan Barratt and J{\"u}rgen Floege and Roberts, \{Ian S.D.\} and Rosanna Coppo and Costa, \{Ivan G.\} and B{\"u}low, \{Roman D.\} and Peter Boor",

note = "Publisher Copyright: {\textcopyright} 2023, The Author(s).",

year = "2023",

month = dec,

doi = "10.1038/s41467-023-36173-0",

language = "English (US)",

volume = "14",

journal = "Nature communications",

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Hölscher, DL, Bouteldja, N, Joodaki, M, Russo, ML, Lan, YC, Sadr, AV, Cheng, M, Tesar, V, Stillfried, SV, Klinkhammer, BM, Barratt, J, Floege, J, Roberts, ISD, Coppo, R, Costa, IG, Bülow, RD & Boor, P 2023, 'Next-Generation Morphometry for pathomics-data mining in histopathology', Nature communications, vol. 14, no. 1, 470. https://doi.org/10.1038/s41467-023-36173-0

TY - JOUR

T1 - Next-Generation Morphometry for pathomics-data mining in histopathology

AU - Hölscher, David L.

AU - Bouteldja, Nassim

AU - Joodaki, Mehdi

AU - Russo, Maria L.

AU - Lan, Yu Chia

AU - Sadr, Alireza Vafaei

AU - Cheng, Mingbo

AU - Tesar, Vladimir

AU - Stillfried, Saskia V.

AU - Klinkhammer, Barbara M.

AU - Barratt, Jonathan

AU - Floege, Jürgen

AU - Roberts, Ian S.D.

AU - Coppo, Rosanna

AU - Costa, Ivan G.

AU - Bülow, Roman D.

AU - Boor, Peter

PY - 2023/12

Y1 - 2023/12

N2 - 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.

AB - 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.

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DO - 10.1038/s41467-023-36173-0

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VL - 14

JO - Nature communications

JF - Nature communications

IS - 1

M1 - 470

ER -

Next-Generation Morphometry for pathomics-data mining in histopathology

Abstract

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