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Region Segmentation of Whole-Slide Images for Analyzing Histological Differentiation of Prostate Adenocarcinoma Using Ensemble EfficientNetB2 U-Net with Transfer Learning Mechanism

SIMPLE SUMMARY: Differentiating growth patterns of the tumor glands in prostate biopsy tissue images is a challenging task for pathologists. Therefore, advanced technology, especially deep learning techniques, is needed to improve cancer diagnosis and reduce the workload of the pathologist. In this...

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Autores principales: Ikromjanov, Kobiljon, Bhattacharjee, Subrata, Sumon, Rashadul Islam, Hwang, Yeong-Byn, Rahman, Hafizur, Lee, Myung-Jae, Kim, Hee-Cheol, Park, Eunhyang, Cho, Nam-Hoon, Choi, Heung-Kook
Formato: Online Artículo Texto
Lenguaje:English
Publicado: MDPI 2023
Materias:
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9913745/
https://www.ncbi.nlm.nih.gov/pubmed/36765719
http://dx.doi.org/10.3390/cancers15030762
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author Ikromjanov, Kobiljon
Bhattacharjee, Subrata
Sumon, Rashadul Islam
Hwang, Yeong-Byn
Rahman, Hafizur
Lee, Myung-Jae
Kim, Hee-Cheol
Park, Eunhyang
Cho, Nam-Hoon
Choi, Heung-Kook
author_facet Ikromjanov, Kobiljon
Bhattacharjee, Subrata
Sumon, Rashadul Islam
Hwang, Yeong-Byn
Rahman, Hafizur
Lee, Myung-Jae
Kim, Hee-Cheol
Park, Eunhyang
Cho, Nam-Hoon
Choi, Heung-Kook
author_sort Ikromjanov, Kobiljon
collection PubMed
description SIMPLE SUMMARY: Differentiating growth patterns of the tumor glands in prostate biopsy tissue images is a challenging task for pathologists. Therefore, advanced technology, especially deep learning techniques, is needed to improve cancer diagnosis and reduce the workload of the pathologist. In this research work, we aimed to analyze whole-slide images of prostate biopsies and differentiate between stroma, benign, and cancer tissue components through deep learning techniques. Instead of image classification, we developed different deep CNN models for tissue-level prostate cancer adenocarcinoma histological segmentation. With these techniques, different patterns in a whole-slide image can be analyzed for cancer diagnosis. ABSTRACT: Recent advances in computer-aided detection via deep learning (DL) now allow for prostate cancer to be detected automatically and recognized with extremely high accuracy, much like other medical diagnoses and prognoses. However, researchers are still limited by the Gleason scoring system. The histopathological analysis involved in assigning the appropriate score is a rigorous, time-consuming manual process that is constrained by the quality of the material and the pathologist’s level of expertise. In this research, we implemented a DL model using transfer learning on a set of histopathological images to segment cancerous and noncancerous areas in whole-slide images (WSIs). In this approach, the proposed Ensemble U-net model was applied for the segmentation of stroma, cancerous, and benign areas. The WSI dataset of prostate cancer was collected from the Kaggle repository, which is publicly available online. A total of 1000 WSIs were used for region segmentation. From this, 8100 patch images were used for training, and 900 for testing. The proposed model demonstrated an average dice coefficient (DC), intersection over union (IoU), and Hausdorff distance of 0.891, 0.811, and 15.9, respectively, on the test set, with corresponding masks of patch images. The manipulation of the proposed segmentation model improves the ability of the pathologist to predict disease outcomes, thus enhancing treatment efficacy by isolating the cancerous regions in WSIs.
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spelling pubmed-99137452023-02-11 Region Segmentation of Whole-Slide Images for Analyzing Histological Differentiation of Prostate Adenocarcinoma Using Ensemble EfficientNetB2 U-Net with Transfer Learning Mechanism Ikromjanov, Kobiljon Bhattacharjee, Subrata Sumon, Rashadul Islam Hwang, Yeong-Byn Rahman, Hafizur Lee, Myung-Jae Kim, Hee-Cheol Park, Eunhyang Cho, Nam-Hoon Choi, Heung-Kook Cancers (Basel) Article SIMPLE SUMMARY: Differentiating growth patterns of the tumor glands in prostate biopsy tissue images is a challenging task for pathologists. Therefore, advanced technology, especially deep learning techniques, is needed to improve cancer diagnosis and reduce the workload of the pathologist. In this research work, we aimed to analyze whole-slide images of prostate biopsies and differentiate between stroma, benign, and cancer tissue components through deep learning techniques. Instead of image classification, we developed different deep CNN models for tissue-level prostate cancer adenocarcinoma histological segmentation. With these techniques, different patterns in a whole-slide image can be analyzed for cancer diagnosis. ABSTRACT: Recent advances in computer-aided detection via deep learning (DL) now allow for prostate cancer to be detected automatically and recognized with extremely high accuracy, much like other medical diagnoses and prognoses. However, researchers are still limited by the Gleason scoring system. The histopathological analysis involved in assigning the appropriate score is a rigorous, time-consuming manual process that is constrained by the quality of the material and the pathologist’s level of expertise. In this research, we implemented a DL model using transfer learning on a set of histopathological images to segment cancerous and noncancerous areas in whole-slide images (WSIs). In this approach, the proposed Ensemble U-net model was applied for the segmentation of stroma, cancerous, and benign areas. The WSI dataset of prostate cancer was collected from the Kaggle repository, which is publicly available online. A total of 1000 WSIs were used for region segmentation. From this, 8100 patch images were used for training, and 900 for testing. The proposed model demonstrated an average dice coefficient (DC), intersection over union (IoU), and Hausdorff distance of 0.891, 0.811, and 15.9, respectively, on the test set, with corresponding masks of patch images. The manipulation of the proposed segmentation model improves the ability of the pathologist to predict disease outcomes, thus enhancing treatment efficacy by isolating the cancerous regions in WSIs. MDPI 2023-01-26 /pmc/articles/PMC9913745/ /pubmed/36765719 http://dx.doi.org/10.3390/cancers15030762 Text en © 2023 by the authors. https://creativecommons.org/licenses/by/4.0/Licensee MDPI, Basel, Switzerland. This article is an open access article distributed under the terms and conditions of the Creative Commons Attribution (CC BY) license (https://creativecommons.org/licenses/by/4.0/).
spellingShingle Article
Ikromjanov, Kobiljon
Bhattacharjee, Subrata
Sumon, Rashadul Islam
Hwang, Yeong-Byn
Rahman, Hafizur
Lee, Myung-Jae
Kim, Hee-Cheol
Park, Eunhyang
Cho, Nam-Hoon
Choi, Heung-Kook
Region Segmentation of Whole-Slide Images for Analyzing Histological Differentiation of Prostate Adenocarcinoma Using Ensemble EfficientNetB2 U-Net with Transfer Learning Mechanism
title Region Segmentation of Whole-Slide Images for Analyzing Histological Differentiation of Prostate Adenocarcinoma Using Ensemble EfficientNetB2 U-Net with Transfer Learning Mechanism
title_full Region Segmentation of Whole-Slide Images for Analyzing Histological Differentiation of Prostate Adenocarcinoma Using Ensemble EfficientNetB2 U-Net with Transfer Learning Mechanism
title_fullStr Region Segmentation of Whole-Slide Images for Analyzing Histological Differentiation of Prostate Adenocarcinoma Using Ensemble EfficientNetB2 U-Net with Transfer Learning Mechanism
title_full_unstemmed Region Segmentation of Whole-Slide Images for Analyzing Histological Differentiation of Prostate Adenocarcinoma Using Ensemble EfficientNetB2 U-Net with Transfer Learning Mechanism
title_short Region Segmentation of Whole-Slide Images for Analyzing Histological Differentiation of Prostate Adenocarcinoma Using Ensemble EfficientNetB2 U-Net with Transfer Learning Mechanism
title_sort region segmentation of whole-slide images for analyzing histological differentiation of prostate adenocarcinoma using ensemble efficientnetb2 u-net with transfer learning mechanism
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9913745/
https://www.ncbi.nlm.nih.gov/pubmed/36765719
http://dx.doi.org/10.3390/cancers15030762
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