精准自动化重症监护管理:闭环重症监护治疗缺血再灌注猪模型中的分布性休克。
Precision Automated Critical Care Management: Closed-loop critical care for the treatment of distributive shock in a swine model of ischemia-reperfusion.
机构信息
From the Department of Surgery (A.S.G., N.T.P.P.), Atrium Health Wake Forest Baptist; Wake Forest University School of Medicine (A.P.W.); Department of Cardiothoracic Surgery (M.R.L., J.E.J.), Atrium Health Wake Forest Baptist, Winston-Salem, North Carolina; Department of Emergency Medicine (M.A.J.), University of Utah, Salt Lake City, Utah; Division of Pulmonary, Department of Internal Medicine (J.Y.A.) Critical Care and Sleep Medicine, University of California, Davis School of Medicine, Sacramento, California; Section of Pediatric Surgery, Department of Surgery (L.P.N.); and Department of Vascular/Endovascular Surgery (T.K.W.), Atrium Health Wake Forest Baptist, Winston-Salem, North Carolina.
出版信息
J Trauma Acute Care Surg. 2023 Oct 1;95(4):490-496. doi: 10.1097/TA.0000000000004054. Epub 2023 Jun 14.
BACKGROUND
Goal-directed blood pressure management in the intensive care unit can improve trauma outcomes but is labor-intensive. Automated critical care systems can deliver scaled interventions to avoid excessive fluid or vasopressor administration. We compared a first-generation automated drug and fluid delivery platform, Precision Automated Critical Care Management (PACC-MAN), to a more refined algorithm, incorporating additional physiologic inputs and therapeutics. We hypothesized that the enhanced algorithm would achieve equivalent resuscitation endpoints with less crystalloid utilization in the setting of distributive shock.
METHODS
Twelve swine underwent 30% hemorrhage and 30 minutes of aortic occlusion to induce an ischemia-reperfusion injury and distributive shock state. Next, animals were transfused to euvolemia and randomized into a standardized critical care (SCC) of PACC-MAN or an enhanced version (SCC+) for 4.25 hours. SCC+ incorporated lactate and urine output to assess global response to resuscitation and added vasopressin as an adjunct to norepinephrine at certain thresholds. Primary and secondary outcomes were decreased crystalloid administration and time at goal blood pressure, respectively.
RESULTS
Weight-based fluid bolus volume was lower in SCC+ compared with SCC (26.9 mL/kg vs. 67.5 mL/kg, p = 0.02). Cumulative norepinephrine dose required was not significantly different (SCC+: 26.9 μg/kg vs. SCC: 13.76 μg/kg, p = 0.24). Three of 6 animals (50%) in SCC+ triggered vasopressin as an adjunct. Percent time spent between 60 mm Hg and 70 mm Hg, terminal creatinine and lactate, and weight-adjusted cumulative urine output were equivalent.
CONCLUSION
Refinement of the PACC-MAN algorithm decreased crystalloid administration without sacrificing time in normotension, reducing urine output, increasing vasopressor support, or elevating biomarkers of organ damage. Iterative improvements in automated critical care systems to achieve target hemodynamics in a distributive-shock model are feasible.
背景
在重症监护病房中进行目标导向的血压管理可以改善创伤结局,但工作量大。自动化的重症监护系统可以提供可扩展的干预措施,以避免过度输液或血管加压药的使用。我们比较了第一代自动化药物和液体输送平台 Precision Automated Critical Care Management(PACC-MAN)和一种更精细的算法,该算法纳入了额外的生理输入和治疗方法。我们假设,在分布性休克的情况下,增强的算法将实现等效的复苏终点,同时减少晶体液的使用。
方法
12 头猪经历了 30%的出血和 30 分钟的主动脉夹闭,以诱导缺血再灌注损伤和分布性休克状态。然后,动物被输血至正常血容量,并随机分为标准化重症监护(SCC)的 PACC-MAN 或增强版(SCC+),持续 4.25 小时。SCC+ 将乳酸和尿量纳入评估全身复苏反应的指标,并在某些阈值时添加血管加压素作为去甲肾上腺素的辅助药物。主要和次要结局分别是减少晶体液的使用和达到目标血压的时间。
结果
SCC+的基于体重的液体负荷量低于 SCC(26.9 毫升/公斤与 67.5 毫升/公斤,p=0.02)。所需的去甲肾上腺素累积剂量没有显著差异(SCC+:26.9μg/kg 与 SCC:13.76μg/kg,p=0.24)。SCC+中有 3 只动物(50%)触发了血管加压素作为辅助药物。在 60mmHg 和 70mmHg 之间的时间百分比、终末肌酐和乳酸,以及体重调整后的累积尿量是等效的。
结论
对 PACC-MAN 算法的改进减少了晶体液的使用,同时在正常血压期间没有浪费时间,减少了尿量,增加了血管加压素的支持,或提高了器官损伤的生物标志物。在分布性休克模型中实现目标血流动力学的自动化重症监护系统的迭代改进是可行的。
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