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© 2022 IEEE. Accurate and rapid detection of COVID-19 pneumonia is crucial for optimal patient treatment. Chest X-Ray (CXR) is the first-line imaging technique for COVID-19 pneumonia diagnosis as it is fast, cheap and easily accessible. Currently, many deep learning (DL) models have been proposed to detect COVID-19 pneumonia from CXR images. Unfortunately, these deep classifiers lack the transparency in interpreting findings, which may limit their applications in clinical practice. The existing explanation methods produce either too noisy or imprecise results, and hence are unsuitable for diagnostic purposes. In this work, we propose a novel explainable CXR deep neural Network (CXR-Net) for accurate COVID-19 pneumonia detection with an enhanced pixel-level visual explanation using CXR images. An Encoder-Decoder-Encoder architecture is proposed, in which an extra encoder is added after the encoder-decoder structure to ensure the model can be trained on category samples. The method has been evaluated on real world CXR datasets from both public and private sources, including healthy, bacterial pneumonia, viral pneumonia and COVID-19 pneumonia cases. The results demonstrate that the proposed method can achieve a satisfactory accuracy and provide fine-resolution activation maps for visual explanation in the lung disease detection. Compared to current state-of-the-art visual explanation methods, the proposed method can provide more detailed, high-resolution, visual explanation for the classification results. It can be deployed in various computing environments, including cloud, CPU and GPU environments. It has a great potential to be used in clinical practice for COVID-19 pneumonia diagnosis.
Author(s): Zhang X, Han L, Sobeih T, Han L, Dempsey N, Lechareas S, Tridente A, Chen H, White S, Zhang D
Publication type: Article
Publication status: Published
Journal: IEEE Journal of Biomedical and Health Informatics
Year: 2023
Volume: 27
Issue: 2
Pages: 980-991
Print publication date: 01/02/2023
Online publication date: 09/11/2022
Acceptance date: 01/11/2022
ISSN (print): 2168-2194
ISSN (electronic): 2168-2208
Publisher: IEEE
URL: https://doi.org/10.1109/JBHI.2022.3220813
DOI: 10.1109/JBHI.2022.3220813
PubMed id: 36350854
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