ARTSA, a New Desktop Application for Automated Renal Tubular Segmentation and Analysis

Briana A. Santo; Tatsat R. Patel; Teruhiko Yoshida; Jurgen Heymann; John E. Tomaszewski; Avi Z. Rosenberg; Jeffrey B. Kopp; Vincent M. Tutino

doi:10.1109/WNYISPW60588.2023.10349629

ARTSA, a New Desktop Application for Automated Renal Tubular Segmentation and Analysis

Briana A. Santo
, Tatsat R. Patel
, Teruhiko Yoshida
, Jurgen Heymann
, John E. Tomaszewski
, Avi Z. Rosenberg
, Jeffrey B. Kopp
, Vincent M. Tutino

SUNY Buffalo
National Institutes of Health
Johns Hopkins University

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

2 Scopus citations

Abstract

Chronic kidney disease (CKD) is a global health concern, with its progression often characterized by pathological changes in renal tubules. Accurate segmentation and quantitative analysis of renal tubules are critical for understanding disease progression and monitoring treatment efficacy in both model studies and routine diagnostics. Here, we present the development and testing of a novel software tool designed for Automated Renal Tubular Segmentation and Analysis (ARTSA). The ARTSA software employs advanced deep learning algorithms and computational image analysis to automate the segmentation and analysis of renal tubules and medulla in histological kidney tissue sections. This innovative approach eliminates the need for labor-intensive manual segmentation and minimizes human bias, thereby enhancing the precision and efficiency of renal tubular analysis. To gauge ARTSA's performance, we carefully tested it on a balanced dataset of kidney tissue images, covering both healthy and diseased states. The software demonstrated exceptional segmentation performance for both renal tubules and nuclei. Furthermore, the ARTSA software enables comprehensive quantitative analysis of segmented tubules, including measures of tubular curvature, brush border loss, and luminal expansion, which are essential pathologies to quantify. In summary, the ARTSA software represents a significant contribution to the field of digital renal pathology by offering a reliable, automated solution for renal tubular segmentation and analysis.

Original language	English
Title of host publication	2023 IEEE Western New York Image and Signal Processing Workshop, WNYISPW 2023
Publisher	Institute of Electrical and Electronics Engineers Inc.
ISBN (Electronic)	9798350329698
DOIs	https://doi.org/10.1109/WNYISPW60588.2023.10349629
State	Published - 2023
Event	2023 IEEE Western New York Image and Signal Processing Workshop, WNYISPW 2023 - Rochester, United States Duration: Nov 3 2023 → …

Publication series

Name	2023 IEEE Western New York Image and Signal Processing Workshop, WNYISPW 2023

Conference

Conference	2023 IEEE Western New York Image and Signal Processing Workshop, WNYISPW 2023
Country/Territory	United States
City	Rochester
Period	11/3/23 → …

Keywords

automated analysis
Chronic kidney disease
deep learning
histology
image processing
nephrology
renal tubular segmentation
software development

Access to Document

10.1109/WNYISPW60588.2023.10349629

Cite this

Santo, B. A., Patel, T. R., Yoshida, T., Heymann, J., Tomaszewski, J. E., Rosenberg, A. Z., Kopp, J. B., & Tutino, V. M. (2023). ARTSA, a New Desktop Application for Automated Renal Tubular Segmentation and Analysis. In 2023 IEEE Western New York Image and Signal Processing Workshop, WNYISPW 2023 (2023 IEEE Western New York Image and Signal Processing Workshop, WNYISPW 2023). Institute of Electrical and Electronics Engineers Inc.. https://doi.org/10.1109/WNYISPW60588.2023.10349629

Santo, Briana A. ; Patel, Tatsat R. ; Yoshida, Teruhiko et al. / ARTSA, a New Desktop Application for Automated Renal Tubular Segmentation and Analysis. 2023 IEEE Western New York Image and Signal Processing Workshop, WNYISPW 2023. Institute of Electrical and Electronics Engineers Inc., 2023. (2023 IEEE Western New York Image and Signal Processing Workshop, WNYISPW 2023).

@inproceedings{8f77c56dc7394eaea4a115993a41966b,

title = "ARTSA, a New Desktop Application for Automated Renal Tubular Segmentation and Analysis",

abstract = "Chronic kidney disease (CKD) is a global health concern, with its progression often characterized by pathological changes in renal tubules. Accurate segmentation and quantitative analysis of renal tubules are critical for understanding disease progression and monitoring treatment efficacy in both model studies and routine diagnostics. Here, we present the development and testing of a novel software tool designed for Automated Renal Tubular Segmentation and Analysis (ARTSA). The ARTSA software employs advanced deep learning algorithms and computational image analysis to automate the segmentation and analysis of renal tubules and medulla in histological kidney tissue sections. This innovative approach eliminates the need for labor-intensive manual segmentation and minimizes human bias, thereby enhancing the precision and efficiency of renal tubular analysis. To gauge ARTSA's performance, we carefully tested it on a balanced dataset of kidney tissue images, covering both healthy and diseased states. The software demonstrated exceptional segmentation performance for both renal tubules and nuclei. Furthermore, the ARTSA software enables comprehensive quantitative analysis of segmented tubules, including measures of tubular curvature, brush border loss, and luminal expansion, which are essential pathologies to quantify. In summary, the ARTSA software represents a significant contribution to the field of digital renal pathology by offering a reliable, automated solution for renal tubular segmentation and analysis.",

keywords = "automated analysis, Chronic kidney disease, deep learning, histology, image processing, nephrology, renal tubular segmentation, software development",

author = "Santo, \{Briana A.\} and Patel, \{Tatsat R.\} and Teruhiko Yoshida and Jurgen Heymann and Tomaszewski, \{John E.\} and Rosenberg, \{Avi Z.\} and Kopp, \{Jeffrey B.\} and Tutino, \{Vincent M.\}",

note = "Publisher Copyright: {\textcopyright} 2023 IEEE.; 2023 IEEE Western New York Image and Signal Processing Workshop, WNYISPW 2023 ; Conference date: 03-11-2023",

year = "2023",

doi = "10.1109/WNYISPW60588.2023.10349629",

language = "English",

series = "2023 IEEE Western New York Image and Signal Processing Workshop, WNYISPW 2023",

publisher = "Institute of Electrical and Electronics Engineers Inc.",

booktitle = "2023 IEEE Western New York Image and Signal Processing Workshop, WNYISPW 2023",

address = "United States",

}

Santo, BA, Patel, TR, Yoshida, T, Heymann, J, Tomaszewski, JE, Rosenberg, AZ, Kopp, JB & Tutino, VM 2023, ARTSA, a New Desktop Application for Automated Renal Tubular Segmentation and Analysis. in 2023 IEEE Western New York Image and Signal Processing Workshop, WNYISPW 2023. 2023 IEEE Western New York Image and Signal Processing Workshop, WNYISPW 2023, Institute of Electrical and Electronics Engineers Inc., 2023 IEEE Western New York Image and Signal Processing Workshop, WNYISPW 2023, Rochester, United States, 11/3/23. https://doi.org/10.1109/WNYISPW60588.2023.10349629

ARTSA, a New Desktop Application for Automated Renal Tubular Segmentation and Analysis. / Santo, Briana A.; Patel, Tatsat R.; Yoshida, Teruhiko et al.
2023 IEEE Western New York Image and Signal Processing Workshop, WNYISPW 2023. Institute of Electrical and Electronics Engineers Inc., 2023. (2023 IEEE Western New York Image and Signal Processing Workshop, WNYISPW 2023).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

TY - GEN

T1 - ARTSA, a New Desktop Application for Automated Renal Tubular Segmentation and Analysis

AU - Santo, Briana A.

AU - Patel, Tatsat R.

AU - Yoshida, Teruhiko

AU - Heymann, Jurgen

AU - Tomaszewski, John E.

AU - Rosenberg, Avi Z.

AU - Kopp, Jeffrey B.

AU - Tutino, Vincent M.

PY - 2023

Y1 - 2023

N2 - Chronic kidney disease (CKD) is a global health concern, with its progression often characterized by pathological changes in renal tubules. Accurate segmentation and quantitative analysis of renal tubules are critical for understanding disease progression and monitoring treatment efficacy in both model studies and routine diagnostics. Here, we present the development and testing of a novel software tool designed for Automated Renal Tubular Segmentation and Analysis (ARTSA). The ARTSA software employs advanced deep learning algorithms and computational image analysis to automate the segmentation and analysis of renal tubules and medulla in histological kidney tissue sections. This innovative approach eliminates the need for labor-intensive manual segmentation and minimizes human bias, thereby enhancing the precision and efficiency of renal tubular analysis. To gauge ARTSA's performance, we carefully tested it on a balanced dataset of kidney tissue images, covering both healthy and diseased states. The software demonstrated exceptional segmentation performance for both renal tubules and nuclei. Furthermore, the ARTSA software enables comprehensive quantitative analysis of segmented tubules, including measures of tubular curvature, brush border loss, and luminal expansion, which are essential pathologies to quantify. In summary, the ARTSA software represents a significant contribution to the field of digital renal pathology by offering a reliable, automated solution for renal tubular segmentation and analysis.

AB - Chronic kidney disease (CKD) is a global health concern, with its progression often characterized by pathological changes in renal tubules. Accurate segmentation and quantitative analysis of renal tubules are critical for understanding disease progression and monitoring treatment efficacy in both model studies and routine diagnostics. Here, we present the development and testing of a novel software tool designed for Automated Renal Tubular Segmentation and Analysis (ARTSA). The ARTSA software employs advanced deep learning algorithms and computational image analysis to automate the segmentation and analysis of renal tubules and medulla in histological kidney tissue sections. This innovative approach eliminates the need for labor-intensive manual segmentation and minimizes human bias, thereby enhancing the precision and efficiency of renal tubular analysis. To gauge ARTSA's performance, we carefully tested it on a balanced dataset of kidney tissue images, covering both healthy and diseased states. The software demonstrated exceptional segmentation performance for both renal tubules and nuclei. Furthermore, the ARTSA software enables comprehensive quantitative analysis of segmented tubules, including measures of tubular curvature, brush border loss, and luminal expansion, which are essential pathologies to quantify. In summary, the ARTSA software represents a significant contribution to the field of digital renal pathology by offering a reliable, automated solution for renal tubular segmentation and analysis.

KW - automated analysis

KW - Chronic kidney disease

KW - deep learning

KW - histology

KW - image processing

KW - nephrology

KW - renal tubular segmentation

KW - software development

UR - https://www.scopus.com/pages/publications/85182027812

U2 - 10.1109/WNYISPW60588.2023.10349629

DO - 10.1109/WNYISPW60588.2023.10349629

M3 - Conference contribution

AN - SCOPUS:85182027812

T3 - 2023 IEEE Western New York Image and Signal Processing Workshop, WNYISPW 2023

BT - 2023 IEEE Western New York Image and Signal Processing Workshop, WNYISPW 2023

PB - Institute of Electrical and Electronics Engineers Inc.

T2 - 2023 IEEE Western New York Image and Signal Processing Workshop, WNYISPW 2023

Y2 - 3 November 2023

ER -

Santo BA, Patel TR, Yoshida T, Heymann J, Tomaszewski JE, Rosenberg AZ et al. ARTSA, a New Desktop Application for Automated Renal Tubular Segmentation and Analysis. In 2023 IEEE Western New York Image and Signal Processing Workshop, WNYISPW 2023. Institute of Electrical and Electronics Engineers Inc. 2023. (2023 IEEE Western New York Image and Signal Processing Workshop, WNYISPW 2023). doi: 10.1109/WNYISPW60588.2023.10349629

ARTSA, a New Desktop Application for Automated Renal Tubular Segmentation and Analysis

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