Early Warning of In-Hospital Cardiac Arrest from Photoplethysmography Using Deep Residual Networks

Somin Mindy Lee; Hyeonhoon Lee; Hyung-Chul Lee

Early Warning of In-Hospital Cardiac Arrest from Photoplethysmography Using Deep Residual Networks

Somin Mindy Lee, Hyeonhoon Lee, Hyung-Chul Lee

Published: 23 Sept 2025, Last Modified: 18 Oct 2025TS4H NeurIPS 2025EveryoneRevisionsBibTeXCC BY 4.0

Keywords: cardiac arrest, deep learning, ppg, ResNet, early warning systems, critical care monitoring

TL;DR: A deep learning model using continuous PPG signals to predict in-hospital cardiac arrest up to 24 hours in advance, enabling early, non-invasive risk detection in ICU patients.

Abstract: Early detection of in-hospital cardiac arrest remains a critical challenge for improving patient outcomes. We propose a deep learning framework that leverages continuous photoplethysmography (PPG) signals to predict cardiac arrest within a 24-hour window. Models were developed using the SCOPE dataset, a recently released collection of paired ECG and PPG waveforms from 4,517 ICU admissions across 3,785 patients at Seoul National University Hospital. We trained a residual 1D convolutional neural network on 5-minute PPG segments sampled at 125 Hz, and evaluated performance using patient-level stratified 5-fold cross-validation. The model achieved strong discrimination with both AUROC and AUPRC, demonstrating that PPG signals contain predictive signatures of impending deterioration. These findings highlight the feasibility of scalable, non-invasive waveform-based risk prediction, and position PPG monitoring as a promising digital biomarker in critical care. Our results also underscore the value of large, publicly available waveform datasets for advancing robust and generalizable prognostic modeling.

Submission Number: 127

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