Rapid Exclusion of COVID Infection With the Artificial Intelligence Electrocardiogram
Author | Zachi I., Attia |
Author | Kapa, Suraj |
Author | Dugan, Jennifer |
Author | Pereira, Naveen |
Author | Noseworthy, Peter A. |
Author | Jimenez, Francisco Lopez |
Author | Cruz, Jessica |
Author | Carter, Rickey E. |
Author | DeSimone, Daniel C. |
Author | Signorino, John |
Author | Halamka, John |
Author | Chennaiah Gari, Nikhita R. |
Author | Madathala, Raja Sekhar |
Author | Platonov, Pyotr G. |
Author | Gul, Fahad |
Author | Janssens, Stefan P. |
Author | Narayan, Sanjiv |
Author | Upadhyay, Gaurav A. |
Author | Alenghat, Francis J. |
Author | Lahiri, Marc K. |
Author | Dujardin, Karl |
Author | Hermel, Melody |
Author | Dominic, Paari |
Author | Turk-Adawi, Karam |
Author | Asaad, Nidal |
Author | Svensson, Anneli |
Author | Fernandez-Aviles, Francisco |
Author | Esakof, Darryl D. |
Author | Bartunek, Jozef |
Author | Noheria, Amit |
Author | Sridhar, Arun R. |
Author | Lanza, Gaetano A. |
Author | Cohoon, Kevin |
Author | Padmanabhan, Deepak |
Author | Pardo Gutierrez, Jose Alberto |
Author | Sinagra, Gianfranco |
Author | Merlo, Marco |
Author | Zagari, Domenico |
Author | Rodriguez Escenaro, Brenda D. |
Author | Pahlajani, Dev B. |
Author | Loncar, Goran |
Author | Vukomanovic, Vladan |
Author | Jensen, Henrik K. |
Author | Farkouh, Michael E. |
Author | Luescher, Thomas F. |
Author | Su Ping, Carolyn Lam |
Author | Peters, Nicholas S. |
Author | Friedman, Paul A. |
Available date | 2021-08-08T11:02:47Z |
Publication Date | 2021-08-31 |
Publication Name | Mayo Clinic Proceedings |
Identifier | http://dx.doi.org/10.1016/j.mayocp.2021.05.027 |
Citation | Attia, Zachi I. et. al. , "Rapid Exclusion of COVID Infection With the Artificial Intelligence Electrocardiogram", Mayo Clinic Proceedings, Volume 96, Issue 8, 2021, Pages 2081-2094, ISSN 0025-6196, https://doi.org/10.1016/j.mayocp.2021.05.027. |
ISSN | 00256196 |
Abstract | ObjectiveTo rapidly exclude severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) infection using artificial intelligence applied to the electrocardiogram (ECG). MethodsA global, volunteer consortium from 4 continents identified patients with ECGs obtained around the time of polymerase chain reaction–confirmed COVID-19 diagnosis and age- and sex-matched controls from the same sites. Clinical characteristics, polymerase chain reaction results, and raw electrocardiographic data were collected. A convolutional neural network was trained using 26,153 ECGs (33.2% COVID positive), validated with 3826 ECGs (33.3% positive), and tested on 7870 ECGs not included in other sets (32.7% positive). Performance under different prevalence values was tested by adding control ECGs from a single high-volume site. ResultsThe area under the curve for detection of acute COVID-19 infection in the test group was 0.767 (95% CI, 0.756 to 0.778; sensitivity, 98%; specificity, 10%; positive predictive value, 37%; negative predictive value, 91%). To more accurately reflect a real-world population, 50,905 normal controls were added to adjust the COVID prevalence to approximately 5% (2657/58,555), resulting in an area under the curve of 0.780 (95% CI, 0.771 to 0.790) with a specificity of 12.1% and a negative predictive value of 99.2%. ConclusionInfection with SARS-CoV-2 results in electrocardiographic changes that permit the artificial intelligence–enhanced ECG to be used as a rapid screening test with a high negative predictive value (99.2%). This may permit the development of electrocardiography-based tools to rapidly screen individuals for pandemic control. |
Language | en |
Publisher | Elsevier |
Subject | Screening COVID 19 Artificial Intelligence |
Type | Article |
Issue Number | 8 |
Volume Number | 96 |
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