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Hauptverfasser: Zhou, Xinkai, Goeddel, Lee, Faraday, Nauder, Crainiceanu, Ciprian M.
Format: Preprint
Veröffentlicht: 2025
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Online-Zugang:https://arxiv.org/abs/2506.22805
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author Zhou, Xinkai
Goeddel, Lee
Faraday, Nauder
Crainiceanu, Ciprian M.
author_facet Zhou, Xinkai
Goeddel, Lee
Faraday, Nauder
Crainiceanu, Ciprian M.
contents Emerging technologies enable continuous monitoring of temporal exposures to disease risk factors, leading to complex structures in the exposure process that consists of a subject-specific number and duration of exposure episodes. A key scientific question is how does the number and duration of episodic exposure affect disease risk. We address this question by introducing the FLexible Accumulation ModEl (FLAME) and the associated inferential tools, whose finite sample performance is evaluated through comprehensive simulations. FLAME is motivated by and applied to quantifying the association between hypotensive exposure during cardiac surgery and acute kidney injury (AKI). Our results characterize the AKI risk accumulation pattern as a function of hypotensive duration and shows that while 60 one-minute episodes is associated with an AKI probability of 0.23, a single sustained sixty-minute hypotensive episode raises that probability to 0.32, a 37\% increase despite the same total duration. These results offer direct guidance for improving hemodynamics risk management strategies during intraoperative care. Our method is accompanied by the R package flame.
format Preprint
id arxiv_https___arxiv_org_abs_2506_22805
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle The Flexible Accumulation Model for High Density Temporal Exposures
Zhou, Xinkai
Goeddel, Lee
Faraday, Nauder
Crainiceanu, Ciprian M.
Methodology
Emerging technologies enable continuous monitoring of temporal exposures to disease risk factors, leading to complex structures in the exposure process that consists of a subject-specific number and duration of exposure episodes. A key scientific question is how does the number and duration of episodic exposure affect disease risk. We address this question by introducing the FLexible Accumulation ModEl (FLAME) and the associated inferential tools, whose finite sample performance is evaluated through comprehensive simulations. FLAME is motivated by and applied to quantifying the association between hypotensive exposure during cardiac surgery and acute kidney injury (AKI). Our results characterize the AKI risk accumulation pattern as a function of hypotensive duration and shows that while 60 one-minute episodes is associated with an AKI probability of 0.23, a single sustained sixty-minute hypotensive episode raises that probability to 0.32, a 37\% increase despite the same total duration. These results offer direct guidance for improving hemodynamics risk management strategies during intraoperative care. Our method is accompanied by the R package flame.
title The Flexible Accumulation Model for High Density Temporal Exposures
topic Methodology
url https://arxiv.org/abs/2506.22805