Dynamic prediction of mortality in COVID-19 patients in the intensive care unit: A retrospective multi-center cohort study

Publication date

2022

Authors

Smit, Janine G.
Krijthe, J H
Endeman, H
Tintu, A N
de Rijke, Y B
Gommers, D A M P J
Cremer, Olaf LORCID 0000-0003-4264-1108ISNI 0000000387039874
Bosman, R J
Rigter, S
Wils, E-J

Editors

Advisors

Supervisors

Document Type

Article

Collections

Open Access logo

License

cc_by_nc_nd

Abstract

Background: The COVID-19 pandemic continues to overwhelm intensive care units (ICUs) worldwide, and improved prediction of mortality among COVID-19 patients could assist decision making in the ICU setting. In this work, we report on the development and validation of a dynamic mortality model specifically for critically ill COVID-19 patients and discuss its potential utility in the ICU. Methods: We collected electronic medical record (EMR) data from 3222 ICU admissions with a COVID-19 infection from 25 different ICUs in the Netherlands. We extracted daily observations of each patient and fitted both a linear (logistic regression) and non-linear (random forest) model to predict mortality within 24 h from the moment of prediction. Isotonic regression was used to re-calibrate the predictions of the fitted models. We evaluated the models in a leave-one-ICU-out (LOIO) cross-validation procedure. Results: The logistic regression and random forest model yielded an area under the receiver operating characteristic curve of 0.87 [0.85; 0.88] and 0.86 [0.84; 0.88], respectively. The recalibrated model predictions showed a calibration intercept of -0.04 [-0.12; 0.04] and slope of 0.90 [0.85; 0.95] for logistic regression model and a calibration intercept of -0.19 [-0.27; -0.10] and slope of 0.89 [0.84; 0.94] for the random forest model. Discussion: We presented a model for dynamic mortality prediction, specifically for critically ill COVID-19 patients, which predicts near-term mortality rather than in-ICU mortality. The potential clinical utility of dynamic mortality models such as benchmarking, improving resource allocation and informing family members, as well as the development of models with more causal structure, should be topics for future research.

Keywords

Journal Article

Citation

Smit, J M, Krijthe, J H, Endeman, H, Tintu, A N, de Rijke, Y B, Gommers, D A M P J, Cremer, O L, Bosman, R J, Rigter, S, Wils, E-J, Frenzel, T, Dongelmans, D A, De Jong, R, Peters, M A A, Kamps, M J A, Ramnarain, D, Nowitzky, R, Nooteboom, F G C A, De Ruijter, W, Urlings-Strop, L C, Smit, E G M, Mehagnoul-Schipper, D J, Dormans, T, De Jager, C P C, Hendriks, S H A, Achterberg, S, Oostdijk, E, Reidinga, A C, Festen-Spanjer, B, Brunnekreef, G B, Cornet, A D, Van den Tempel, W, Boelens, A D, Koetsier, P, Lens, J A, Faber, H J, Karakus, A, Entjes, R, De Jong, P, Rettig, T C D, Arbous, M S, Lalisang, R C A, Tonutti, M, De Bruin, D P, Elbers, P W G, Van Bommel, J & Reinders, M J T 2022, 'Dynamic prediction of mortality in COVID-19 patients in the intensive care unit : A retrospective multi-center cohort study', Intelligence-based medicine, vol. 6, 100071, pp. 1-9. https://doi.org/10.1016/j.ibmed.2022.100071