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Development of an automated estimation of foot process width using deep learning in kidney biopsies from patients with Fabry, minimal change, and diabetic kidney diseases

Title
Development of an automated estimation of foot process width using deep learning in kidney biopsies from patients with Fabry, minimal change, and diabetic kidney diseases
Type
Article in International Scientific Journal
Year
2024
Authors
Smerkous, D
(Author)
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Mauer, M
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Tondel, C
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Svarstad, E
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Gubler, MC
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Nelson, RG
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João Paulo Oliveira
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FMUP
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Sargolzaeiaval, F
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Najafian, B
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Journal
Title: Kidney InternationalImported from Authenticus Search for Journal Publications
Vol. 105
Pages: 165-176
ISSN: 0085-2538
Publisher: Elsevier
Other information
Authenticus ID: P-00Z-5EQ
Abstract (EN): Podocyte injury plays a key role in pathogenesis of many kidney diseases with increased podocyte foot process width (FPW), an important measure of podocyte injury. Unfortunately, there is no consensus on the best way to estimate FPW and unbiased stereology, the current gold standard, is time consuming and not widely available. To address this, we developed an automated FPW estimation technique using deep learning. A U -Net architecture variant model was trained to semantically segment the podocyteglomerular basement membrane interface and filtration slits. Additionally, we employed a post -processing computer vision approach to accurately estimate FPW. A custom segmentation utility was also created to manually classify these structures on digital electron microscopy (EM) images and to prepare a training dataset. The model was applied to EM images of kidney biopsies from 56 patients with Fabry disease, 15 with type 2 diabetes, 10 with minimal change disease, and 17 normal individuals. The results were compared with unbiased stereology measurements performed by expert technicians unaware of the clinical information. FPW measured by deep learning and by the expert technicians were highly correlated and not statistically different in any of the studied groups. A Bland -Altman plot confirmed interchangeability of the methods. FPW measurement time per biopsy was substantially reduced by deep learning. Thus, we have developed a novel validated deep learning model for FPW measurement on EM images. The model is accessible through a cloud -based application making calculation of this important biomarker more widely accessible for research and clinical applications.
Language: English
Type (Professor's evaluation): Scientific
No. of pages: 12
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