BIO-CXRNET: a robust multimodal stacking machine learning technique for mortality risk prediction of COVID-19 patients using chest X-ray images and clinical data
Author | Rahman, Tawsifur |
Author | Chowdhury, Muhammad E. H. |
Author | Khandakar, Amith |
Author | Mahbub, Zaid Bin |
Author | Hossain, Md Sakib Abrar |
Author | Alhatou, Abraham |
Author | Abdalla, Eynas |
Author | Muthiyal, Sreekumar |
Author | Islam, Khandaker Farzana |
Author | Kashem, Saad Bin Abul |
Author | Khan, Muhammad Salman |
Author | Zughaier, Susu M. |
Author | Hossain, Maqsud |
Available date | 2023-10-24T08:17:13Z |
Publication Date | 2023 |
Publication Name | Neural Computing and Applications |
Resource | Scopus |
ISSN | 9410643 |
Abstract | Nowadays, quick, and accurate diagnosis of COVID-19 is a pressing need. This study presents a multimodal system to meet this need. The presented system employs a machine learning module that learns the required knowledge from the datasets collected from 930 COVID-19 patients hospitalized in Italy during the first wave of COVID-19 (March-June 2020). The dataset consists of twenty-five biomarkers from electronic health record and Chest X-ray (CXR) images. It is found that the system can diagnose low- or high-risk patients with an accuracy, sensitivity, and F1-score of 89.03%, 90.44%, and 89.03%, respectively. The system exhibits 6% higher accuracy than the systems that employ either CXR images or biomarker data. In addition, the system can calculate the mortality risk of high-risk patients using multivariate logistic regression-based nomogram scoring technique. Interested physicians can use the presented system to predict the early mortality risks of COVID-19 patients using the web-link: Covid-severity-grading-AI. In this case, a physician needs to input the following information: CXR image file, Lactate Dehydrogenase (LDH), Oxygen Saturation (O2%), White Blood Cells Count, C-reactive protein, and Age. This way, this study contributes to the management of COVID-19 patients by predicting early mortality risk. |
Sponsor | Open Access funding provided by the Qatar National Library. This work was supported by the Qatar National Research Grant: UREP28-144-3-046. The statements made herein are solely the responsibility of the authors. |
Language | en |
Publisher | Springer Science and Business Media Deutschland GmbH |
Subject | Chest X-ray Classical machine learning Clinical data COVID-19 Deep learning Multimodal system Prognostic model |
Type | Article |
Pagination | 17461-17483 |
Issue Number | 24 |
Volume Number | 35 |
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COVID-19 Research [838 items ]
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Electrical Engineering [2685 items ]
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Medicine Research [1537 items ]