Machine learning in predicting respiratory failure in patients with COVID-19 pneumonia-Challenges, strengths, and opportunities in a global health emergency

Aims The aim of this study was to estimate a 48 hour prediction of moderate to severe respiratory failure, requiring mechanical ventilation, in hospitalized patients with COVID-19 pneumonia. Methods This was an observational prospective study that comprised consecutive patients with COVID-19 pneumon...

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Veröffentlicht in:	PloS one 2020-11, Vol.15 (11), p.e0239172-e0239172, Article 0239172
Hauptverfasser:	Ferrari, Davide, Milic, Jovana, Tonelli, Roberto, Ghinelli, Francesco, Meschiari, Marianna, Volpi, Sara, Faltoni, Matteo, Franceschi, Giacomo, Iadisernia, Vittorio, Yaacoub, Dina, Ciusa, Giacomo, Bacca, Erica, Rogati, Carlotta, Tutone, Marco, Burastero, Giulia, Raimondi, Alessandro, Menozzi, Marianna, Franceschini, Erica, Cuomo, Gianluca, Corradi, Luca, Orlando, Gabriella, Santoro, Antonella, Digaetano, Margherita, Puzzolante, Cinzia, Carli, Federica, Borghi, Vanni, Bedini, Andrea, Fantini, Riccardo, Tabbi, Luca, Castaniere, Ivana, Busani, Stefano, Clini, Enrico, Girardis, Massimo, Sarti, Mario, Cossarizza, Andrea, Mussini, Cristina, Mandreoli, Federica, Missier, Paolo, Guaraldi, Giovanni
Format:	Artikel
Sprache:	eng
Schlagworte:	Aged Authorship Betacoronavirus Biology and Life Sciences Biomarkers Blood Gas Analysis Clinical decision making Complications and side effects Computer and Information Sciences Computer Simulation Control Coronavirus Infections - complications Coronaviruses COVID-19 Decision analysis Decision making Epidemics Epidemiology Failure Female Global health Health risks Humans Infectious diseases Intensive care Italy Learning algorithms Machine Learning Male Mechanical ventilation Medicine and Health Sciences Middle Aged Model accuracy Models, Statistical Morphology Multidisciplinary Sciences Pandemics Patients Performance prediction Physical Sciences Pneumonia Pneumonia, Viral - complications Prediction models Prospective Studies Public health Research and Analysis Methods Respiration, Artificial Respiratory diseases Respiratory failure Respiratory insufficiency Respiratory Insufficiency - diagnosis Respiratory Insufficiency - etiology Risk factors SARS-CoV-2 Science & Technology Science & Technology - Other Topics Signs and symptoms Technology assessment Variables Ventilation Ventilators
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Zusammenfassung:	Aims The aim of this study was to estimate a 48 hour prediction of moderate to severe respiratory failure, requiring mechanical ventilation, in hospitalized patients with COVID-19 pneumonia. Methods This was an observational prospective study that comprised consecutive patients with COVID-19 pneumonia admitted to hospital from 21 February to 6 April 2020. The patients' medical history, demographic, epidemiologic and clinical data were collected in an electronic patient chart. The dataset was used to train predictive models using an established machine learning framework leveraging a hybrid approach where clinical expertise is applied alongside a data-driven analysis. The study outcome was the onset of moderate to severe respiratory failure defined as PaO2/FiO(2) ratio Results A total of 198 patients contributed to generate 1068 usable observations which allowed to build 3 predictive models based respectively on 31-variables signs and symptoms, 39-variables laboratory biomarkers and 91-variables as a composition of the two. A fourth "boosted mixed model" included 20 variables was selected from the model 3, achieved the best predictive performance (AUC = 0.84) without worsening the FN rate. Its clinical performance was applied in a narrative case report as an example. Conclusion This study developed a machine model with 84% prediction accuracy, which is able to assist clinicians in decision making process and contribute to develop new analytics to improve care at high technology readiness levels.
ISSN:	1932-6203 1932-6203
DOI:	10.1371/journal.pone.0239172