Cao Heshan, Wei Junying, Hua Ping, Yang Songran
Department of Neurology, Sun Yat-sen Memorial Hospital, Sun Yat-sen University, Guangzhou, China.
Department of Anaesthesiology, The First Affiliated Hospital of Guangzhou University of Chinese Medicine, Guangzhou, China.
Front Neurol. 2025 May 7;16:1513732. doi: 10.3389/fneur.2025.1513732. eCollection 2025.
The incidence of ventilator-associated pneumonia (VAP) in ischemic stroke (IS) patients is linked to a variety of detrimental outcomes. Current approaches for the early identification of individuals at high risk for developing VAP are limited and often lack clinical interpretability. The goal of this study is to develop and validate an interpretable machine learning (ML) model for early predicting VAP risk in IS patients in the intensive care unit (ICU).
Data on IS patients were extracted from versions 2.2 and 3.0 of the Medical Information Mart for Intensive Care-IV database, with version 2.2 being used for model training and internal validation and version 3.0 for external testing. The primary outcome was the incidence of VAP post-ICU admission. The Boruta algorithm was used to select features prior to developing 10 ML models. The Shapley Additive Explanation (SHAP) method was employed to assess the global and local interpretability of the model's decision-making process. The final model and Streamlit were used for developing and launching an online web application.
A total of 419 IS patients were included, with 401 in the derivation and 118 in the test group. Following feature selection, seven clinical characteristics were incorporated in the ML model: systolic and diastolic blood pressure, international normalized ratio, length of stay before mechanical ventilation, dysphagia, antibiotic counts and suctioning counts. Among the 10 evaluated ML models, the Random Forest (RF) model outperformed the others, achieving an internal validation AUC of 0.776, accuracy of 0.704, sensitivity of 0.900, and specificity of 0.588. In external testing, performance dropped to an AUC of 0.644, accuracy of 0.610, sensitivity of 0.688, and specificity of 0.519, raising concerns about the model's generalizability.
The RF model is reliable in early identifying high-risk IS patients for VAP. The SHAP method offers clear and intuitive explanations for individual risk assessment. The web-based tool has the potential to improve clinical outcomes by promptly recognizing patients at increased VAP risk and facilitating early intervention, further multicenter prospective studies are required to validate its generalizability and practical utility.
缺血性中风(IS)患者中呼吸机相关性肺炎(VAP)的发生率与多种不良后果相关。目前用于早期识别发生VAP高风险个体的方法有限,且往往缺乏临床可解释性。本研究的目的是开发并验证一种可解释的机器学习(ML)模型,用于早期预测重症监护病房(ICU)中IS患者的VAP风险。
从重症监护医学信息数据库-IV的2.2版和3.0版中提取IS患者的数据,2.2版用于模型训练和内部验证,3.0版用于外部测试。主要结局是ICU入院后VAP的发生率。在开发10个ML模型之前,使用Boruta算法选择特征。采用Shapley值相加解释(SHAP)方法评估模型决策过程的全局和局部可解释性。最终模型和Streamlit用于开发和推出在线网络应用程序。
共纳入419例IS患者,其中401例用于模型推导,118例用于测试组。经过特征选择后,7项临床特征被纳入ML模型:收缩压和舒张压、国际标准化比值、机械通气前住院时间、吞咽困难、抗生素使用次数和吸痰次数。在评估的10个ML模型中,随机森林(RF)模型表现优于其他模型,内部验证的AUC为0.776,准确率为0.704,敏感性为0.900,特异性为0.588。在外部测试中,性能降至AUC为0.644,准确率为0.610,敏感性为0.688,特异性为0.519,这引发了对该模型可推广性的担忧。
RF模型在早期识别VAP的IS高风险患者方面是可靠的。SHAP方法为个体风险评估提供了清晰直观的解释。基于网络的工具有可能通过及时识别VAP风险增加的患者并促进早期干预来改善临床结局,还需要进一步的多中心前瞻性研究来验证其可推广性和实际效用。
