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Predict Ki-67 Positive Cells in H&E-Stained Images Using Deep Learning Independently From IHC-Stained Images

Yiqing Liu, Xi Li, Aiping Zheng, Xihan Zhu, Shuting Liu, Mengying Hu, Qianjiang Luo, Huina Liao, Mubiao Liu, Yonghong He, Yupeng Chen

2020Frontiers in Molecular Biosciences58 citationsDOIOpen Access PDF

Abstract

OBJECTIVE: To obtain molecular information in slides directly from H&E staining slides, which apparently display morphological information, to show that some differences in molecular level have already encoded in morphology. METHODS: In this paper, we selected Ki-67-expression as the representative of molecular information. We proposed a method that can predict Ki-67 positive cells directly from H&E stained slides by a deep convolutional network model. To train this model, we constructed a dataset containing Ki-67 negative or positive cell images and background images. These images were all extracted from H&E stained WSIs and the Ki-67 expression was acquired from the corresponding IHC stained WSIs. The trained model was evaluated both on classification performance and the ability to quantify Ki-67 expression in H&E stained images. RESULTS: The model achieved an average accuracy of 0.9371 in discrimination of Ki-67 negative cell images, positive cell images and background images. As for evaluation of quantification performance, the correlation coefficient between the quantification results of H&E stained images predicted by our model and that of IHC stained images obtained by color channel filtering is 0.80. CONCLUSION AND SIGNIFICANCE: Our study indicates that the deep learning model has a good performance both on prediction of Ki-67 positive cells and quantification of Ki-67 expression in cancer samples stained by H&E. More generally, this study shows that deep learning is a powerful tool in exploring the relationship between morphological information and molecular information. AVAILABILITY AND IMPLEMENTATION: The main program is available at https://github.com/liuyiqing2018/predict_Ki-67_from_HE.

Topics & Concepts

Artificial intelligenceImmunohistochemistryConvolutional neural networkStainingPattern recognition (psychology)Ki-67Deep learningComputer scienceCorrelationPathologyMathematicsMedicineGeometryCell Image Analysis TechniquesAI in cancer detectionDigital Imaging for Blood Diseases
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