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PodoCount: A Robust, Fully Automated, Whole-Slide Podocyte Quantification Tool

Cited 7 time in Web of Science Cited 5 time in Scopus
Authors

Santo, Briana A.; Govind, Darshana; Daneshpajouhnejad, Parnaz; Yang, Xiaoping; Wang, Xiaoxin X.; Myakala, Komuraiah; Jones, Bryce A.; Levi, Moshe; Kopp, Jeffrey B.; Yoshida, Teruhiko; Niedernhofer, Laura J.; Manthey, David; Moon, Kyung Chul; Han, Seung Seok; Zee, Jarcy; Rosenberg, Avi Z.; Sarder, Pinaki

Issue Date
2022-06
Publisher
Elsevier | International Society of Nephrology
Citation
Kidney International Reports, Vol.7 No.6, pp.1377-1392
Abstract
© 2022 International Society of NephrologyIntroduction: Podocyte depletion is a histomorphologic indicator of glomerular injury and predicts clinical outcomes. Podocyte estimation methods or podometrics are semiquantitative, technically involved, and laborious. Implementation of high-throughput podometrics in experimental and clinical workflows necessitates an automated podometrics pipeline. Recognizing that computational image analysis offers a robust approach to study cell and tissue structure, we developed and validated PodoCount (a computational tool for automated podocyte quantification in immunohistochemically labeled tissues) using a diverse data set. Methods: Whole-slide images (WSIs) of tissues immunostained with a podocyte nuclear marker and periodic acid–Schiff counterstain were acquired. The data set consisted of murine whole kidney sections (n = 135) from 6 disease models and human kidney biopsy specimens from patients with diabetic nephropathy (DN) (n = 45). Within segmented glomeruli, podocytes were extracted and image analysis was applied to compute measures of podocyte depletion and nuclear morphometry. Computational performance evaluation and statistical testing were performed to validate podometric and associated image features. PodoCount was disbursed as an open-source, cloud-based computational tool. Results: PodoCount produced highly accurate podocyte quantification when benchmarked against existing methods. Podocyte nuclear profiles were identified with 0.98 accuracy and segmented with 0.85 sensitivity and 0.99 specificity. Errors in podocyte count were bounded by 1 podocyte per glomerulus. Podocyte-specific image features were found to be significant predictors of disease state, proteinuria, and clinical outcome. Conclusion: PodoCount offers high-performance podocyte quantitation in diverse murine disease models and in human kidney biopsy specimens. Resultant features offer significant correlation with associated metadata and outcome. Our cloud-based tool will provide end users with a standardized approach for automated podometrics from gigapixel-sized WSIs.
ISSN
2468-0249
URI
https://hdl.handle.net/10371/185752
DOI
https://doi.org/10.1016/j.ekir.2022.03.004
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