Abstract
.Purpose: Coronavirus disease 2019 (COVID-19) is a new infection that has spread worldwide and with no automatic model to reliably detect its presence from images. We aim to investigate the potential of deep transfer learning to predict COVID-19 infection using chest computed tomography (CT) and x-ray images.Approach: Regions of interest (ROI) corresponding to ground-glass opacities (GGO), consolidations, and pleural effusions were labeled in 100 axial lung CT images from 60 COVID-19-infected subjects. These segmented regions were then employed as an additional input to six deep convolutional neural network (CNN) architectures (AlexNet, DenseNet, GoogleNet, NASNet-Mobile, ResNet18, and DarkNet), pretrained on natural images, to differentiate between COVID-19 and normal CT images. We also explored the model’s ability to classify x-ray images as COVID-19, non-COVID-19 pneumonia, or normal. Performance on test images was measured with global accuracy and area under the receiver operating characteristic curve (AUC).Results: When using raw CT images as input to the tested models, the highest accuracy of 82% and AUC of 88.16% is achieved. Incorporating the three ROIs as an additional model inputs further boosts performance to an accuracy of 82.30% and an AUC of 90.10% (DarkNet). For x-ray images, we obtained an outstanding AUC of 97% for classifying COVID-19 versus normal versus other. Combing chest CT and x-ray images, DarkNet architecture achieves the highest accuracy of 99.09% and AUC of 99.89% in classifying COVID-19 from non-COVID-19. Our results confirm the ability of deep CNNs with transfer learning to predict COVID-19 in both chest CT and x-ray images.Conclusions: The proposed method could help radiologists increase the accuracy of their diagnosis and increase efficiency in COVID-19 management.
Highlights
In December 2019, a new coronavirus disease, called COVID-19 by the World Health Organization,[1] was discovered in Wuhan, Hubei, China
We propose to exploit features learned from six different deep convolutional neural network (CNN) architectures and boost deep transfer learning (DTL) models using the Regions of interest (ROI) in addition to the training images for predicting COVID-19
Our experiments use a dataset of 746 computed tomography (CT) images (COVID-19 = 349 and non-COVID-19 = 397) from 216 patients and 657 chest x-ray images (219 COVID-19, 219 normal, and 219 pneumonia)
Summary
In December 2019, a new coronavirus disease, called COVID-19 by the World Health Organization,[1] was discovered in Wuhan, Hubei, China. Hassan, and Desrosiers: Deep CNN models for predicting COVID-19 in CT and x-ray images and need high processing times. They can potentially have serious side effects such as secondary infection. Given the low sensitivity of the RT-PCR test,[10] automated and reliable methods to screen COVID-19 patients are required. Medical imaging techniques, such as chest CT and chest x-ray, offer a noninvasive alternative to identify COVID-19.11–14 clinicians are not always able to identify small changes within scans/ images caused by the presence of COVID-19. There is a pressing need for intelligent tools to predict COVID-19 infection from medical images
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