[HTML][HTML] A soft label deep learning to assist breast cancer target therapy and thyroid cancer diagnosis

CW Wang, KY Lin, YJ Lin, MA Khalil, KL Chu, TK Chao - Cancers, 2022 - mdpi.com
CW Wang, KY Lin, YJ Lin, MA Khalil, KL Chu, TK Chao
Cancers, 2022mdpi.com
Simple Summary Early diagnosis and treatment of cancer is crucial for the survival of cancer
patients. Pathologists can use computational pathology techniques to make the diagnosis
process more efficient and accurate. With the emergence of deep learning, there is
considerable hope that this technology will be able to address issues that were previously
impossible to tackle. In this study, we present an automatic soft label deep learning
framework to select patients for human epidermal factor receptor 2 target therapy and …
Simple Summary
Early diagnosis and treatment of cancer is crucial for the survival of cancer patients. Pathologists can use computational pathology techniques to make the diagnosis process more efficient and accurate. With the emergence of deep learning, there is considerable hope that this technology will be able to address issues that were previously impossible to tackle. In this study, we present an automatic soft label deep learning framework to select patients for human epidermal factor receptor 2 target therapy and papillary thyroid carcinoma diagnosis. This approach will assist in breast cancer target therapy and thyroid cancer diagnosis with rapid examination and decrease human judgment mistakes.
Abstract
According to the World Health Organization Report 2022, cancer is the most common cause of death contributing to nearly one out of six deaths worldwide. Early cancer diagnosis and prognosis have become essential in reducing the mortality rate. On the other hand, cancer detection is a challenging task in cancer pathology. Trained pathologists can detect cancer, but their decisions are subjective to high intra- and inter-observer variability, which can lead to poor patient care owing to false-positive and false-negative results. In this study, we present a soft label fully convolutional network (SL-FCN) to assist in breast cancer target therapy and thyroid cancer diagnosis, using four datasets. To aid in breast cancer target therapy, the proposed method automatically segments human epidermal growth factor receptor 2 (HER2) amplification in fluorescence in situ hybridization (FISH) and dual in situ hybridization (DISH) images. To help in thyroid cancer diagnosis, the proposed method automatically segments papillary thyroid carcinoma (PTC) on Papanicolaou-stained fine needle aspiration and thin prep whole slide images (WSIs). In the evaluation of segmentation of HER2 amplification in FISH and DISH images, we compare the proposed method with thirteen deep learning approaches, including U-Net, U-Net with InceptionV5, Ensemble of U-Net with Inception-v4, Inception-Resnet-v2 encoder, and ResNet-34 encoder, SegNet, FCN, modified FCN, YOLOv5, CPN, SOLOv2, BCNet, and DeepLabv3+ with three different backbones, including MobileNet, ResNet, and Xception, on three clinical datasets, including two DISH datasets on two different magnification levels and a FISH dataset. The result on DISH breast dataset 1 shows that the proposed method achieves high accuracy of 87.77 ± 14.97%, recall of 91.20 ± 7.72%, and F1-score of 81.67 ± 17.76%, while, on DISH breast dataset 2, the proposed method achieves high accuracy of 94.64 ± 2.23%, recall of 83.78 ± 6.42%, and F1-score of 85.14 ± 6.61% and, on the FISH breast dataset, the proposed method achieves high accuracy of 93.54 ± 5.24%, recall of 83.52 ± 13.15%, and F1-score of 86.98 ± 9.85%, respectively. Furthermore, the proposed method outperforms most of the benchmark approaches by a significant margin (p <0.001). In evaluation of segmentation of PTC on Papanicolaou-stained WSIs, the proposed method is compared with three deep learning methods, including Modified FCN, U-Net, and SegNet. The experimental result demonstrates that the proposed method achieves high accuracy of 99.99 ± 0.01%, precision of 92.02 ± 16.6%, recall of 90.90 ± 14.25%, and F1-score of 89.82 ± 14.92% and significantly outperforms the baseline methods, including U-Net and FCN (p <0.001). With the high degree of accuracy, precision, and recall, the results show that the proposed method could be used in assisting breast cancer target therapy and thyroid …
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