Adaptive Discretization for Event PredicTion (ADEPT).

Autor: Hickey J; North Carolina State University., Henao R; King Abdullah University of Science and Technology.; Duke University School of Medicine., Wojdyla D; Duke Clinical Research Institute., Pencina M; Duke AI Health.; Duke University School of Medicine., Engelhard M; Duke AI Health.; Duke University School of Medicine.
Jazyk: angličtina
Zdroj: Proceedings of machine learning research [Proc Mach Learn Res] 2024 May; Vol. 238, pp. 1351-1359.
Abstrakt: Recently developed survival analysis methods improve upon existing approaches by predicting the probability of event occurrence in each of a number pre-specified (discrete) time intervals. By avoiding placing strong parametric assumptions on the event density, this approach tends to improve prediction performance, particularly when data are plentiful. However, in clinical settings with limited available data, it is often preferable to judiciously partition the event time space into a limited number of intervals well suited to the prediction task at hand. In this work, we develop Adaptive Discretization for Event PredicTion (ADEPT) to learn from data a set of cut points defining such a partition. We show that in two simulated datasets, we are able to recover intervals that match the underlying generative model. We then demonstrate improved prediction performance on three real-world observational datasets, including a large, newly harmonized stroke risk prediction dataset. Finally, we argue that our approach facilitates clinical decision-making by suggesting time intervals that are most appropriate for each task, in the sense that they facilitate more accurate risk prediction.
Databáze: MEDLINE