Evaluation of a Physiologic-Driven Closed-Loop Resuscitation Algorithm in an Animal Model of Hemorrhagic Shock.

IF 7.7 1区 医学 Q1 CRITICAL CARE MEDICINE
Michael R Pinsky, Hernando Gomez, Anthony Wertz, Jim Leonard, Artur Dubrawski, Ronald Poropatich
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引用次数: 0

Abstract

Objectives: Appropriate resuscitation from hemorrhagic shock is critical to restore tissue perfusion and to avoid over-resuscitation. The objective of this study was to test the ability of a closed-loop diagnosis and resuscitation algorithm called resuscitation from shock using functional hemodynamic monitoring using invasive monitoring (ReFit1) and minimally invasive monitoring (ReFit2) to identify, treat, and stabilize a porcine model of severe hemorrhagic shock.

Design: We created a ReFit algorithm using dynamic hemodynamic parameters of pulse pressure variation (PPV), stroke volume variation (SVV), dynamic arterial elastance (Eadyn = PPV/SVV), driven by mean arterial pressure (MAP), mixed venous oxygen saturation, and heart rate targets to define the need for fluids, vasopressors, and inotropes.

Setting: University-based animal laboratory.

Subjects: Twenty-seven female pigs.

Interventions: Anesthetized, intubated, and ventilated (8 mL/kg) pigs were bled at 10 mL/min until a MAP of less than 40 mm Hg, held for 30 minutes, then resuscitated. The ReFit algorithm used the above dynamic parameters to drive computer-controlled infusion pumps to deliver blood, lactated Ringer's solution, norepinephrine, and in ReFit1 dobutamine. In four animals, after initial resuscitation from hemorrhagic shock, the ability of the ReFit1 algorithm to treat acute air embolism-induced pulmonary hypertension and right heart failure was also tested.

Main results: In 10 ReFit1 and 17 ReFit2 animals, the time to stabilization from shock was not dissimilar to open controlled resuscitation performed by an expert physician (52 ± 12, 50 ± 13, and 60 ± 15 min, respectively) with similar amounts of fluids and norepinephrine needed. In four ReFit1 animals after initial stabilization, the algorithm successfully resuscitated the animals after inducing an acute air embolism right heart failure, with all animals recovering stability within 30 minutes.

Conclusions: Our physiologically based functional hemodynamic monitoring-centered closed-loop resuscitation system can effectively diagnose and treat cardiovascular shock due to hemorrhage and air embolism.

在失血性休克动物模型中评估生理驱动的闭环复苏算法
目的:适当的失血性休克复苏对于恢复组织灌注和避免过度复苏至关重要。本研究的目的是测试利用有创监测(ReFit1)和微创监测(ReFit2)进行功能性血流动力学监测的休克复苏闭环诊断和复苏算法识别、治疗和稳定猪重度失血性休克模型的能力:设计:我们利用脉压变化(PPV)、每搏量变化(SVV)、动态动脉弹性(Eadyn = PPV/SVV)等动态血液动力学参数创建了一种 ReFit 算法,该算法由平均动脉压(MAP)、混合静脉血氧饱和度和心率目标驱动,用于确定是否需要输液、使用血管加压药和肌注:环境:大学动物实验室:干预措施麻醉、插管和通气(8 毫升/千克)的猪以 10 毫升/分钟的速度放血,直至血压低于 40 毫米汞柱,保持 30 分钟,然后进行复苏。ReFit 算法利用上述动态参数驱动计算机控制的输液泵输送血液、乳酸林格氏液、去甲肾上腺素以及 ReFit1 中的多巴酚丁胺。在对四只动物进行失血性休克初步复苏后,还测试了 ReFit1 算法治疗急性空气栓塞引起的肺动脉高压和右心衰竭的能力:主要结果:在 10 只 ReFit1 和 17 只 ReFit2 动物中,休克稳定时间与专家医师实施的开放式控制复苏时间(分别为 52 ± 12 分钟、50 ± 13 分钟和 60 ± 15 分钟)并无差别,所需的液体和去甲肾上腺素量相似。在四只 ReFit1 动物中,在诱发急性空气栓塞右心衰竭后,该算法成功地对动物进行了复苏,所有动物都在 30 分钟内恢复了稳定:我们基于生理学的以功能性血流动力学监测为中心的闭环复苏系统能有效诊断和治疗因出血和空气栓塞引起的心血管休克。
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
Critical Care Medicine
Critical Care Medicine 医学-危重病医学
CiteScore
16.30
自引率
5.70%
发文量
728
审稿时长
2 months
期刊介绍: Critical Care Medicine is the premier peer-reviewed, scientific publication in critical care medicine. Directed to those specialists who treat patients in the ICU and CCU, including chest physicians, surgeons, pediatricians, pharmacists/pharmacologists, anesthesiologists, critical care nurses, and other healthcare professionals, Critical Care Medicine covers all aspects of acute and emergency care for the critically ill or injured patient. Each issue presents critical care practitioners with clinical breakthroughs that lead to better patient care, the latest news on promising research, and advances in equipment and techniques.
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