Prehospital Post-Resuscitation Vital Sign Phenotypes are Associated with Outcomes Following Out-of-Hospital Cardiac Arrest.

IF 2.1 3区医学 Q2 EMERGENCY MEDICINE

Prehospital Emergency Care Pub Date : 2024-08-15 DOI:10.1080/10903127.2024.2386445

Tanner Smida, Bradley S Price, Alan Mizener, Remle P Crowe, James M Bardes

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引用次数: 0

Abstract

Objectives: The use of machine learning to identify patient 'clusters' using post-return of spontaneous circulation (ROSC) vital signs may facilitate the identification of patient subgroups at high risk of rearrest and mortality. Our objective was to use k-means clustering to identify post-ROSC vital sign clusters and determine whether these clusters were associated with rearrest and mortality.

Methods: The ESO Data Collaborative 2018-2022 datasets were used for this study. We included adult, non-traumatic OHCA patients with >2 post-ROSC vital sign sets. Patients were excluded if they had an EMS-witnessed OHCA or were encountered during an interfacility transfer. Unsupervised (k-means) clustering was performed using minimum, maximum, and delta (last minus first) systolic blood pressure (BP), heart rate, SpO₂, shock index, and pulse pressure. The assessed outcomes were mortality and rearrest. To explore the association between rearrest, mortality, and cluster, multivariable logistic regression modeling was used.

Results: Within our cohort of 12,320 patients, five clusters were identified. Patients in cluster 1 were hypertensive, patients in cluster 2 were normotensive, patients in cluster 3 were hypotensive and tachycardic (n = 2164; 17.6%), patients in cluster 4 were hypoxemic and exhibited increasing systolic BP, and patients in cluster 5 were severely hypoxemic and exhibited a declining systolic BP. The overall proportion of patients who experienced mortality stratified by cluster was 63.4% (c1), 68.1% (c2), 78.8% (c3), 84.8% (c4), and 86.6% (c5). In comparison to the cluster with the lowest mortality (c1), each other cluster was associated with greater odds of mortality and rearrest.

Conclusions: Unsupervised k-means clustering yielded 5 post-ROSC vital sign clusters that were associated with rearrest and mortality.

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院前复苏后生命体征表型与院外心脏骤停后的预后有关。

目的：利用自发性循环（ROSC）恢复后的生命体征，通过机器学习识别患者 "群组"，可帮助识别再次抢救和死亡率高的患者亚群：利用机器学习识别自发性循环（ROSC）后生命体征的患者 "集群 "可能有助于识别再次发病和死亡风险较高的患者亚群。我们的目标是使用k均值聚类来识别ROSC后生命体征群组，并确定这些群组是否与再休克和死亡率相关。方法：本研究使用了ESO数据协作2018-2022数据集。我们纳入了ROSC后生命体征组数大于2组的成人非创伤性OHCA患者。如果患者有急救人员目击的 OHCA 或在医院间转运过程中遇到 OHCA，则将其排除在外。使用收缩压（BP）、心率、SpO2、休克指数和脉压的最小值、最大值和 delta 值（最后值减去最先值）进行无监督（k-均值）聚类。评估结果为死亡率和再次发病率。结果：在我们的 12,320 名患者队列中，确定了五个群组。第 1 组为高血压患者，第 2 组为正常血压患者，第 3 组为低血压和心动过速患者（n = 2,164; 17.6%），第 4 组为低氧血症患者，收缩压不断升高，第 5 组为严重低氧血症患者，收缩压不断下降。按群组分层，出现死亡的患者总比例分别为 63.4%（c1）、68.1%（c2）、78.8%（c3）、84.8%（c4）和 86.6%（c5）。与死亡率最低的群组（c1）相比，其他群组的死亡率和再次被捕的几率都更高：无监督k均值聚类产生了5个与再次逮捕和死亡率相关的ROSC后生命体征聚类。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Prehospital Emergency Care 医学-公共卫生、环境卫生与职业卫生

CiteScore

4.30

自引率

12.50%

发文量

137

审稿时长

1 months

期刊介绍： Prehospital Emergency Care publishes peer-reviewed information relevant to the practice, educational advancement, and investigation of prehospital emergency care, including the following types of articles: Special Contributions - Original Articles - Education and Practice - Preliminary Reports - Case Conferences - Position Papers - Collective Reviews - Editorials - Letters to the Editor - Media Reviews.