Clinically applicable histopathological diagnosis system for gastric cancer detection using deep learning

Song, Zhigang; Zou, Shuangmei; Zhou, Weixun; Huang, Yong; Shao, Liwei; Yuan, Jing; Gou, Xiangnan; Jin, Wei; Wang, Zhanbo; Chen, Xin; Ding, Xiaohui; Liu, Jinhong; Yu, Chunkai; Ku, Calvin; Liu, Cancheng; Sun, Zhuo; Gang, Xu; Wang, Yuefeng; Zhang, Xiaoqing; Wang, Dandan; Wang, Shuhao; Xu, Wei; Davis, Richard; Shi, Huaiyin

doi:10.1038/s41467-020-18147-8

Cited by 169 publications

(81 citation statements)

References 29 publications

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“…Haematoxylin-eosin (H&E) staining is the most common method for discriminating benign and malignant lesions. For GC, most studies used CNN models to construct diagnostic systems for H&E staining[ 13 - 17 ]. In 2017, Sharma et al [ 17 ] reported the first study about computer-aided classification in H&E staining of GC.…”

Section: Achievements Of Ann Research In Gi Diseasesmentioning

confidence: 99%

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Status quo and future prospects of artificial neural network from the perspective of gastroenterologists

Cao¹,

Zhang²,

Wei³

et al. 2021

WJG

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Artificial neural networks (ANNs) are one of the primary types of artificial intelligence and have been rapidly developed and used in many fields. In recent years, there has been a sharp increase in research concerning ANNs in gastrointestinal (GI) diseases. This state-of-the-art technique exhibits excellent performance in diagnosis, prognostic prediction, and treatment. Competitions between ANNs and GI experts suggest that efficiency and accuracy might be compatible in virtue of technique advancements. However, the shortcomings of ANNs are not negligible and may induce alterations in many aspects of medical practice. In this review, we introduce basic knowledge about ANNs and summarize the current achievements of ANNs in GI diseases from the perspective of gastroenterologists. Existing limitations and future directions are also proposed to optimize ANN’s clinical potential. In consideration of barriers to interdisciplinary knowledge, sophisticated concepts are discussed using plain words and metaphors to make this review more easily understood by medical practitioners and the general public.

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Section: Achievements Of Ann Research In Gi Diseasesmentioning

confidence: 99%

“…Rapid progress has been made during the past three years. A CNN model fed by over 2000 H&E slide images achieved a near 100% sensitivity and 80.6% specificity[ 13 ]. Such optimal sensitivity showed that this model has potential in preliminary screening of H&E staining.…”

Section: Achievements Of Ann Research In Gi Diseasesmentioning

confidence: 99%

Status quo and future prospects of artificial neural network from the perspective of gastroenterologists

Cao¹,

Zhang²,

Wei³

et al. 2021

WJG

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show abstract

“…A number of recent studies have paid attention to lesion detection, classification and characterization in this anatomic site. For instance, Song et al [ 84 ] developed and trained a deep CNN to differentiate between benign and malignant gastric tumors, with a sensitivity of 100% and a specificity of 80.6%[ 84 ]. Also, a network developed by Sharma et al [ 85 ] classified gastric cancer cases according to immunohistochemical response and presence of necrosis, with accuracy rates of 0.699 and 0.814, respectively[ 85 ].…”

Section: Applications Of Ai In Gi Pathologymentioning

confidence: 99%

Role of artificial intelligence in multidisciplinary imaging diagnosis of gastrointestinal diseases

Berbís¹,

Aneiros‐Fernández²,

Olivares³

et al. 2021

WJG

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The use of artificial intelligence-based tools is regarded as a promising approach to increase clinical efficiency in diagnostic imaging, improve the interpretability of results, and support decision-making for the detection and prevention of diseases. Radiology, endoscopy and pathology images are suitable for deep-learning analysis, potentially changing the way care is delivered in gastroenterology. The aim of this review is to examine the key aspects of different neural network architectures used for the evaluation of gastrointestinal conditions, by discussing how different models behave in critical tasks, such as lesion detection or characterization ( i.e. the distinction between benign and malignant lesions of the esophagus, the stomach and the colon). To this end, we provide an overview on recent achievements and future prospects in deep learning methods applied to the analysis of radiology, endoscopy and histologic whole-slide images of the gastrointestinal tract.

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“…As shown in Figure 1 , we used the DeepLab v3 image segmentation model with ResNet-50 to establish the GD system. [ 4 ] During the model training process, the parameters of the gastric cancer detection model [ 5 ] were used as the initial values, and the model parameters were fine-tuned using the prostate training data by transfer learning. The model training was performed with TensorFlow on 8 NVIDIA GTX1080Ti GPUs.…”

mentioning

confidence: 99%

“…We also applied histopathological-oriented data augmentation. [ 5 ] The slide-level prediction was defined as the average of the top 100 probabilities of the pixel-level predictions.…”

mentioning

confidence: 99%

Clinically applicable Gleason grading (GD) system for prostate cancer based on deep learning

Niu

Liu²,

Zhang

et al. 2020

Chinese Medical Journal

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Clinically applicable histopathological diagnosis system for gastric cancer detection using deep learning

Cited by 169 publications

References 29 publications

Status quo and future prospects of artificial neural network from the perspective of gastroenterologists

Status quo and future prospects of artificial neural network from the perspective of gastroenterologists

Role of artificial intelligence in multidisciplinary imaging diagnosis of gastrointestinal diseases

Clinically applicable Gleason grading (GD) system for prostate cancer based on deep learning

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