Two-step interpretable modeling of ICU-AIs
Publication date
2024-05
Authors
Lancia, G
Varkila, Meri R J
Cremer, Olaf
Spitoni, Cristian
Editors
Advisors
Supervisors
Document Type
Article
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Abstract
We present a novel methodology for integrating high resolution longitudinal data with the dynamic prediction capabilities of survival models. The aim is two-fold: to improve the predictive power while maintaining the interpretability of the models. To go beyond the black box paradigm of artificial neural networks, we propose a parsimonious and robust semi-parametric approach (i.e., a landmarking competing risks model) that combines routinely collected low-resolution data with predictive features extracted from a convolutional neural network, that was trained on high resolution time-dependent information. We then use saliency maps to analyze and explain the extra predictive power of this model. To illustrate our methodology, we focus on healthcare-associated infections in patients admitted to an intensive care unit.
Keywords
Convolutional neural networks, Dynamic prediction, ICU acquired infections, Landmarking approach, Saliency maps, Artificial Intelligence, Medicine (miscellaneous), Journal Article
Citation
Lancia, G, Varkila, M R J, Cremer, O L & Spitoni, C 2024, 'Two-step interpretable modeling of ICU-AIs', Artificial Intelligence in Medicine, vol. 151, 102862. https://doi.org/10.1016/j.artmed.2024.102862