心肺复苏相关肺水肿的多模态特征。

IF 2.8 Q2 CRITICAL CARE MEDICINE
Aurora Magliocca, Davide Zani, Donatella De Zani, Valentina Castagna, Giulia Merigo, Daria De Giorgio, Francesca Fumagalli, Vanessa Zambelli, Antonio Boccardo, Davide Pravettoni, Giacomo Bellani, Jean Christophe Richard, Giacomo Grasselli, Emanuele Rezoagli, Giuseppe Ristagno
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引用次数: 0

摘要

背景:心肺复苏相关肺水肿(CRALE)是最近在实验性和院外心脏骤停患者中报道的一种现象。我们的目的是在长时间人工和机械胸外按压(CC)的心脏骤停实验模型中探索 CRALE 的呼吸和心血管病理生理学。机械或人工胸外按压过程中实现的氧气输送也是研究的次要目的,目的是描述心肺复苏过程中产生的不同血流动力学支持下的 CRALE 演变:方法:诱发心室颤动(VF),并在开始心肺复苏(CPR)(包括CC、氧气通气、肾上腺素给药和除颤)前 5 分钟不予处理。连续机械和人工心肺复苏每 5 分钟交替进行一次,共持续 25 分钟。非同步机械通气与 CC 同时恢复。对存活动物在基线和恢复自主循环(ROSC)后 1 小时进行肺部计算机断层扫描(CT)。在实验研究期间,在不同的时间点对分区呼吸力学、气体交换、血液动力学和氧输送进行了评估。结果:结果:心肺复苏 25 分钟后,所有动物的呼吸系统顺应性明显下降,氧合和二氧化碳排出量减少。呼吸系统顺应性的恶化是由肺顺应性的显著下降引起的。肺CT显示的肺重量增加和肺通气性降低,以及组织学显示的高肺干湿比和减少的气腔都证实了CRALE的存在。25 分钟心肺复苏期间食管压力的平均变化与 CRALE 的严重程度(即肺重量增加)高度相关:结论:在这一猪心脏骤停模型中,用机械和人工心肺复苏法进行间隔 25 分钟的心肺复苏后,CRALE 始终存在,其特点是肺不均质,肺泡组织和出血取代了肺泡空隙。尽管机械心肺复苏与更严重的 CRALE 有关,但机械按压产生的更高心输出量最终导致了更多的氧气输送。特定的通气策略是否能在保护血液动力学的同时防止 CRALE 的发生仍有待证实。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
A multimodal characterization of cardiopulmonary resuscitation-associated lung edema.

Background: Cardiopulmonary resuscitation-associated lung edema (CRALE) is a phenomenon that has been recently reported in both experimental and out-of-hospital cardiac arrest patients. We aimed to explore the respiratory and cardiovascular pathophysiology of CRALE in an experimental model of cardiac arrest undergoing prolonged manual and mechanical chest compression (CC). Oxygen delivery achieved during mechanical or manual CC were also investigated as a secondary aim, to describe CRALE evolution under different hemodynamic supports generated during CPR.

Methods: Ventricular fibrillation (VF) was induced and left untreated for 5 min prior to begin cardiopulmonary resuscitation (CPR), including CC, ventilation with oxygen, epinephrine administration and defibrillation. Continuous mechanical and manual CC was performed alternating one of the two strategies every 5 min for a total of 25 min. Unsynchronized mechanical ventilation was resumed simultaneously to CC. A lung computed tomography (CT) was performed at baseline and 1 h after return of spontaneous circulation (ROSC) in surviving animals. Partitioned respiratory mechanics, gas exchange, hemodynamics, and oxygen delivery were evaluated during the experimental study at different timepoints. Lung histopathology was performed.

Results: After 25 min of CPR, a marked decrease of the respiratory system compliance with reduced oxygenation and CO2 elimination were observed in all animals. The worsening of the respiratory system compliance was driven by a significant decrease in lung compliance. The presence of CRALE was confirmed by an increased lung weight and a reduced lung aeration at the lung CT, together with a high lung wet-to-dry ratio and reduced airspace at histology. The average change in esophageal pressure during the 25-min CPR highly correlated with the severity of CRALE, i.e., lung weight increase.

Conclusions: In this porcine model of cardiac arrest followed by a 25-min interval of CPR with mechanical and manual CC, CRALE was consistently present and was characterized by lung inhomogeneity with alveolar tissue and hemorrhage replacing alveolar airspace. Despite mechanical CPR is associated with a more severe CRALE, the higher cardiac output generated by the mechanical compression ultimately accounted for a greater oxygen delivery. Whether specific ventilation strategies might prevent CRALE while preserving hemodynamics remains to be proved.

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来源期刊
Intensive Care Medicine Experimental
Intensive Care Medicine Experimental CRITICAL CARE MEDICINE-
CiteScore
5.10
自引率
2.90%
发文量
48
审稿时长
13 weeks
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