Chest Decompressions - The Driver of CPR Efficacy: Exploring the Relationship Between Compression Rate, Depth, Recoil Velocity, and End-Tidal CO2.

IF 2.1 3区医学 Q2 EMERGENCY MEDICINE

Prehospital Emergency Care Pub Date : 2024-06-21 DOI:10.1080/10903127.2024.2364058

Kira Chandran, Isabel M Algaze Gonzalez, Sixian Wang, Daniel P Davis

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引用次数: 0

Abstract

Objective: Cardiopulmonary arrest survival is dependent on optimization of perfusion via high quality cardiopulmonary resuscitation (CPR), defined by a complex dynamic between rate, depth, and recoil velocity. Here we explore the interaction between these metrics and create a model that explores the impact of these variables on compression efficacy.

Methods: This study was performed in a large urban/suburban fire-based emergency medical services (EMS) system over a nine-month period from 2019 to 2020. Manual chest compression parameters [rate/depth/recoil velocity] from a cohort of out-of-hospital cardiac arrest (OOHCA) victims were abstracted from monitor defibrillators (ZOLL X-series) and end-tidal carbon dioxide (ETCO2) from sensors. The mean values of these parameters were modeled against each other using multiple regression and structural equation modeling with ETCO2 as a dependent variable.

Results: Data from a total of 335 patients were analyzed. Strong linear relationships were observed between compression depth/recoil velocity (r = .87, p < .001), ETCO2/depth (r = .23, p < .001) and ETCO2/recoil velocity (r = .61, p < .001). Parabolic relationships were observed between rate/depth (r = .39, p < .001), rate/recoil velocity (r = .26, p < .001), and ETCO2/rate (r = .20, p = .003). Rate, depth, and recoil velocity were modeled as independent variables and ETCO2 as a dependent variable with excellence model performance suggesting the primary driver of stroke volume to be recoil velocity rather than compression depth.

Conclusions: We used manual CPR metrics from out of hospital cardiac arrests to model the relationship between CPR metrics. These results consistently support the importance of chest recoil on CPR hemodynamics, suggesting that guidelines for optimal CPR should emphasize the importance of maximum chest recoil.

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胸外按压--心肺复苏疗效的驱动力：探索按压速度、深度、反冲速度和潮气末二氧化碳之间的关系。

目的：心肺骤停患者的存活率取决于能否通过高质量的心肺复苏（CPR）优化灌注，而心肺复苏的速度、深度和反冲速度之间存在复杂的动态关系。在此，我们探讨了这些指标之间的相互作用，并创建了一个模型来探索这些变量对按压效果的影响。方法：这项研究是在 2019-2020 年的 9 个月期间，在一个大型城市/郊区消防紧急医疗服务（EMS）系统中进行的。研究人员从监护除颤器（ZOLL X 系列）和传感器中提取了一组院外心脏骤停（OOHCA）患者的手动胸外按压参数[速率/深度/回弹速度]和潮气末二氧化碳（ETCO2）。结果：共分析了 335 名患者的数据。按压深度/回旋速度之间存在很强的线性关系（r = 0.87，p 结论：我们使用院外心脏骤停患者的手动心肺复苏指标来模拟心肺复苏指标之间的关系。这些结果一致支持胸廓回缩对心肺复苏血流动力学的重要性，表明最佳心肺复苏指南应强调最大胸廓回缩的重要性。

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.