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논문 기본 정보
- 자료유형
- 학술저널
- 저자정보
- 저널정보
- 대한약리학회 The Korean Journal of Physiology & Pharmacology The Korean Journal of Physiology & Pharmacology 제24권 제1호
- 발행연도
- 2020.1
- 수록면
- 89 - 99 (11page)
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Although microscopic analysis of tissue slides has been the basis for disease diagnosis for decades, intra- and inter-observer variabilities remain issues to be resolved. The recent introduction of digital scanners has allowed for using deep learning in the analysis of tissue images because many whole slide images (WSIs) are accessible to researchers. In the present study, we investigated the possibility of a deep learning-based, fully automated, computer-aided diagnosis system with WSIs from a stomach adenocarcinoma dataset. Three different convolutional neural network architectures were tested to determine the better architecture for tissue classifier. Each network was trained to classify small tissue patches into normal or tumor. Based on the patch-level classification, tumor probability heatmaps can be overlaid on tissue images. We observed three different tissue patterns, including clear normal, clear tumor and ambiguous cases. We suggest that longer inspection time can be assigned to ambiguous cases compared to clear normal cases, increasing the accuracy and efficiency of histopathologic diagnosis by pre-evaluating the status of the WSIs. When the classifier was tested with completely different WSI dataset, the performance was not optimal because of the different tissue preparation quality. By including a small amount of data from the new dataset for training, the performance for the new dataset was much enhanced. These results indicated that WSI dataset should include tissues prepared from many different preparation conditions to construct a generalized tissue classifier. Thus, multi-national/multi-center dataset should be built for the application of deep learning in the real world medical practice.
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참고문헌 (30)
참고문헌 신청
Fischer AH / 2008 / Hematoxylin and eosin staining of tissue and cell sections / CSH Protoc 2008:prot4986
Dalla Palma P / 2009 / The reproducibility of CIN diagnoses among different pathologists: data from histology reviews from a multicenter randomized study / Am J Clin Pathol 132:125~132
Hamilton PW / 2009 / Do we see what we think we see? The complexities of morphological assessment / J Pathol 218:285~291
Cheng J / 2018 / Identification of topological features in renal tumor microenvironment associated with patient survival / Bioinformatics 34:1024~1030
Djuric U / 2017 / Precision histology : how deep learning is poised to revitalize histomorphology for personalized cancer care / NPJ Precis Oncol 1:22
Dalla Palma P / 2009 / The reproducibility of CIN diagnoses among different pathologists: data from histology reviews from a multicenter randomized study / Am J Clin Pathol 132:125~132
Hamilton PW / 2009 / Do we see what we think we see? The complexities of morphological assessment / J Pathol 218:285~291
Cheng J / 2018 / Identification of topological features in renal tumor microenvironment associated with patient survival / Bioinformatics 34:1024~1030
Djuric U / 2017 / Precision histology : how deep learning is poised to revitalize histomorphology for personalized cancer care / NPJ Precis Oncol 1:22
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