Deep learning–based molecular morphometrics for kidney biopsies
Marina Zimmermann, … , Stefan Bonn, Victor G. Puelles
Marina Zimmermann, … , Stefan Bonn, Victor G. Puelles
Published March 11, 2021
Citation Information: JCI Insight. 2021;6(7):e144779. https://doi.org/10.1172/jci.insight.144779.
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Resource and Technical Advance Nephrology

Deep learning–based molecular morphometrics for kidney biopsies

Abstract

Morphologic examination of tissue biopsies is essential for histopathological diagnosis. However, accurate and scalable cellular quantification in human samples remains challenging. Here, we present a deep learning–based approach for antigen-specific cellular morphometrics in human kidney biopsies, which combines indirect immunofluorescence imaging with U-Net–based architectures for image-to-image translation and dual segmentation tasks, achieving human-level accuracy. In the kidney, podocyte loss represents a hallmark of glomerular injury and can be estimated in diagnostic biopsies. Thus, we profiled over 27,000 podocytes from 110 human samples, including patients with antineutrophil cytoplasmic antibody–associated glomerulonephritis (ANCA-GN), an immune-mediated disease with aggressive glomerular damage and irreversible loss of kidney function. We identified previously unknown morphometric signatures of podocyte depletion in patients with ANCA-GN, which allowed patient classification and, in combination with routine clinical tools, showed potential for risk stratification. Our approach enables robust and scalable molecular morphometric analysis of human tissues, yielding deeper biological insights into the human kidney pathophysiology.

Authors

Marina Zimmermann, Martin Klaus, Milagros N. Wong, Ann-Katrin Thebille, Lukas Gernhold, Christoph Kuppe, Maurice Halder, Jennifer Kranz, Nicola Wanner, Fabian Braun, Sonia Wulf, Thorsten Wiech, Ulf Panzer, Christian F. Krebs, Elion Hoxha, Rafael Kramann, Tobias B. Huber, Stefan Bonn, Victor G. Puelles

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Figure 1

Segmentation U-Net for molecular morphometrics in kidney samples.

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Segmentation U-Net for molecular morphometrics in kidney samples. (A) Bi...
(A) Biopsies from patients with immune-mediated kidney diseases, which are diagnosed, treated, and monitored based on clinical, pathological, and integrative data, are used to perform molecular labeling of kidney podocytes, based on indirect immunofluorescence (24). (B) Glomerular area and podocyte nuclei are virtually dissected from high-resolution confocal images with a segmentation U-Net for 2 simultaneous outputs that was trained using a balanced 2-layer binary cross-entropy loss. (C) 3D podocyte morphometrics (podometrics) were generated by model-based stereology, which extrapolates 3D from 2D data; in this case, glomerular and podocyte areas and podocyte spatial location were used to estimate 3D glomerular dimensions, as well as numbers, sizes, and distributions of podocytes. ANCA-GN, antineutrophil cytoplasmic antibody–associated glomerulonephritis; eGFR, estimated glomerular filtration rate; DACH1, Dachshund Family Transcription Factor 1; WT1, Wilms’ Tumor 1; BCE, binary cross-entropy; Conv, convolution; ReLU, rectified linear unit; Max Pool, max pooling.