Real-time prediction of HFNC treatment failure in acute hypoxemic respiratory failure using machine learning.

Journal: Scientific reports
Published Date: Aug 18, 2025

Abstract

Accurate and timely prediction of high-flow nasal cannula (HFNC) treatment failure in patients with acute hypoxemic respiratory failure (AHRF) can lower patient mortality. Previous studies have highlighted inconsistencies in the predictive performance of existing indices, such as ROX and mROX, which are limited by their reliance on oxygenation parameters alone. To address this, we developed a machine learning-based predictive model using temporal data from AHRF patients, aimed at facilitating quicker development of individualized treatment plans and intervention strategies for healthcare professionals. We extracted 15 non-invasive and 15 laboratory features, including patient demographic characteristics, Glasgow Coma Scale, blood gas analysis, chemical assay, and complete blood cell count features. In addition to five machine learning models and an ensemble classifier, an long short-term memory (LSTM) network was included to assess deep learning performance on time-series data. Our study enrolled 427 patients with 498 treatment records. The soft-voting ensemble algorithm achieved an optimal predictive performance with an AUC of 0.839 (95% CI 0.786-0.889) for the all-features model, while logistic regression using common features achieved an AUC of 0.767 (95% CI 0.704-0.825), outperforming ROX and mROX indices. Incorporating blood gas analysis features improved the non-invasive model's performance by 0.104. This study introduces a machine learning model integrated with a dynamic real-time alert system for predicting HFNC treatment failure in AHRF patients, demonstrating improved performance over traditional indices in internal validation and showing potential for decision support in select healthcare settings.

Authors

  • Xiaojie Li
    The College of Computer Science Chengdu University of Information Technology, Chengdu, 610000, China.
  • Chunliang Jiang
    School of Control Science and Engineering, Tiangong University, Tianjin, 300387, China.
  • Qingyan Xie
    School of Life Sciences, Tiangong University, Tianjin, 300387, China.
  • Huiquan Wang
  • JiaMeng Xu
    Institute of Medical Support, Academy of Military Sciences, Tianjin, China.
  • Guanjun Liu
    School of Civil and Hydraulic Engineering, Huazhong University of Science and Technology, Wuhan, Hubei, China; Hubei Provincial Key Laboratory of Digital Watershed Science and Technology, Huazhong University of Science and Technology, Wuhan 430074, China.
  • Panpan Chang
    Trauma Medicine Center of Peking University People's Hospital, Key Laboratory of Trauma and Neural Regeneration (Peking University) Ministry of Education, National Center for Trauma Medicine of China, Beijing, 100044, China.
  • Guang Zhang
    Department of Health Management, The First Affiliated Hospital of Shandong First Medical University & Shandong Provincial Qianfoshan Hospital, Jinan, China.

Keywords

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