Predicting Prolonged Hospitalization and Supplemental Oxygenation in Patients with COVID-19 Infection from Ambulatory Chest Radiographs using Deep Learning

Ayis Pyrros; Adam Eugene Flanders; Jorge Mario Rodríguez-Fernández; Andrew Chen; Patrick Cole; Daniel Wenzke; Eric Hart; Samuel Harford; Jeanne Horowitz; Paul Nikolaidis; Nadir Muzaffar; Viveka Boddipalli; Jai Nebhrajani; Nasir Siddiqui; Melinda Willis; Houshang Darabi; Oluwasanmi Koyejo; William Galanter

doi:10.1016/j.acra.2021.05.002

Predicting Prolonged Hospitalization and Supplemental Oxygenation in Patients with COVID-19 Infection from Ambulatory Chest Radiographs using Deep Learning

Acad Radiol. 2021 Aug;28(8):1151-1158. doi: 10.1016/j.acra.2021.05.002. Epub 2021 May 21.

Authors

Ayis Pyrros¹, Adam Eugene Flanders², Jorge Mario Rodríguez-Fernández³, Andrew Chen⁴, Patrick Cole⁴, Daniel Wenzke⁵, Eric Hart⁶, Samuel Harford⁷, Jeanne Horowitz⁶, Paul Nikolaidis⁶, Nadir Muzaffar⁸, Viveka Boddipalli⁸, Jai Nebhrajani⁹, Nasir Siddiqui⁸, Melinda Willis⁸, Houshang Darabi⁷, Oluwasanmi Koyejo⁴, William Galanter⁹

Affiliations

¹ DuPage Medical Group, Radiology. Electronic address: ayis@ayis.org.
² Thomas Jefferson University Hospital, Radiology.
³ University of Illinois at Chicago, Department of Neurology.
⁴ University of Illinois at Urbana-Champaign, Department of Computer Science.
⁵ NorthShore University HealthSystem Research Institute, Department of Radiology.
⁶ Northwestern Memorial Hospital, Northwestern University, Radiology.
⁷ University of Illinois at Chicago, Mechanical and Industrial Engineering.
⁸ DuPage Medical Group, Radiology.
⁹ University of Illinois at Chicago, Department of Medicine.

Abstract

Rationale and objectives: The clinical prognosis of outpatients with coronavirus disease 2019 (COVID-19) remains difficult to predict, with outcomes including asymptomatic, hospitalization, intubation, and death. Here we determined the prognostic value of an outpatient chest radiograph, together with an ensemble of deep learning algorithms predicting comorbidities and airspace disease to identify patients at a higher risk of hospitalization from COVID-19 infection.

Materials and methods: This retrospective study included outpatients with COVID-19 confirmed by reverse transcription-polymerase chain reaction testing who received an ambulatory chest radiography between March 17, 2020 and October 24, 2020. In this study, full admission was defined as hospitalization within 14 days of the COVID-19 test for > 2 days with supplemental oxygen. Univariate analysis and machine learning algorithms were used to evaluate the relationship between the deep learning model predictions and hospitalization for > 2 days.

Results: The study included 413 patients, 222 men (54%), with a median age of 51 years (interquartile range, 39-62 years). Fifty-one patients (12.3%) required full admission. A boosted decision tree model produced the best prediction. Variables included patient age, frontal chest radiograph predictions of morbid obesity, congestive heart failure and cardiac arrhythmias, and radiographic opacity, with an internally validated area under the curve (AUC) of 0.837 (95% CI: 0.791-0.883) on a test cohort.

Conclusion: Deep learning analysis of single frontal chest radiographs was used to generate combined comorbidity and pneumonia scores that predict the need for supplemental oxygen and hospitalization for > 2 days in patients with COVID-19 infection with an AUC of 0.837 (95% confidence interval: 0.791-0.883). Comorbidity scoring may prove useful in other clinical scenarios.

Keywords: COVID-19; chest radiography; convolutional neural networks; deep learning; multi-task learning.

MeSH terms

Adult
COVID-19* / diagnostic imaging
COVID-19* / therapy
Deep Learning*
Female
Hospitalization
Humans
Male
Middle Aged
Oxygen / therapeutic use*
Radiography, Thoracic
Retrospective Studies

Substances

Oxygen