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一种使用单日生命体征、实验室检查结果和国际疾病分类第10版诊断代码来预测院内心脏骤停的机器学习方法。

A Machine Learning Approach for Predicting In-Hospital Cardiac Arrest Using Single-Day Vital Signs, Laboratory Test Results, and International Classification of Disease-10 Block for Diagnosis.

作者信息

Park Haeil, Park Chan Seok

机构信息

Department of Laboratory Medicine, College of Medicine, The Catholic University of Korea, Seoul, Korea.

Division of Cardiology, Department of Internal Medicine, College of Medicine, The Catholic University of Korea, Seoul, Korea.

出版信息

Ann Lab Med. 2025 Mar 1;45(2):209-217. doi: 10.3343/alm.2024.0315. Epub 2024 Dec 13.

DOI:10.3343/alm.2024.0315
PMID:39668659
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11788698/
Abstract

BACKGROUND

Predicting in-hospital cardiac arrest (IHCA) is crucial for potentially reducing mortality and improving patient outcomes. However, most models, which rely solely on vital signs, may not comprehensively capture the patients' risk profiles. We aimed to improve IHCA predictions by combining vital sign indicators with laboratory test results and, optionally, International Classification of Disease-10 block for diagnosis (ICD10BD).

METHODS

We conducted a retrospective cohort study in the general ward (GW) and intensive care unit (ICU) of a 680-bed secondary healthcare institution. We included 62,061 adults admitted to the Department of Internal Medicine from January 2010 to August 2022. IHCAs were identified based on cardiopulmonary resuscitation prescriptions. Patient-days within three days preceding IHCAs were labeled as case days; all others were control days. The eXtreme Gradient Boosting (XGBoost) model was trained using daily vital signs, 14 laboratory test results, and ICD10BD.

RESULTS

In the GW, among 1,299,448 patient-days from 62,038 patients, 1,367 days linked to 713 patients were cases. In the ICU, among 117,190 patient-days from 16,881 patients, 1,119 days from 444 patients were cases. The area under the ROC curve for IHCA prediction model was 0.934 and 0.896 in the GW and ICU, respectively, using the combination of vital signs, laboratory test results, and ICD10BD; 0.925 and 0.878, respectively, with vital signs and laboratory test results; and 0.839 and 0.828, respectively, with only vital signs.

CONCLUSIONS

Incorporating laboratory test results or combining laboratory test results and ICD10BD with vital signs as predictor variables in the XGBoost model potentially enhances clinical decision-making and improves patient outcomes in hospital settings.

摘要

背景

预测院内心脏骤停(IHCA)对于潜在降低死亡率和改善患者预后至关重要。然而,大多数仅依赖生命体征的模型可能无法全面捕捉患者的风险概况。我们旨在通过将生命体征指标与实验室检查结果以及(可选)国际疾病分类第10版诊断代码(ICD10BD)相结合来改进IHCA预测。

方法

我们在一家拥有680张床位的二级医疗机构的普通病房(GW)和重症监护病房(ICU)进行了一项回顾性队列研究。我们纳入了2010年1月至2022年8月内科收治的62061名成年人。根据心肺复苏处方确定IHCA。将IHCA前三天内的患者日标记为病例日;其他所有日子为对照日。使用每日生命体征、14项实验室检查结果和ICD10BD训练极端梯度提升(XGBoost)模型。

结果

在GW中,62038名患者的1299448个患者日中,与713名患者相关的1367个日子为病例日。在ICU中,16881名患者的117190个患者日中,444名患者的1119个日子为病例日。使用生命体征组合、实验室检查结果和ICD10BD时,GW和ICU中IHCA预测模型的ROC曲线下面积分别为0.934和0.896;仅使用生命体征和实验室检查结果时,分别为0.925和0.878;仅使用生命体征时,分别为0.839和0.828。

结论

在XGBoost模型中纳入实验室检查结果或将实验室检查结果和ICD10BD与生命体征相结合作为预测变量,可能会增强临床决策并改善医院环境中的患者预后。

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