The impact of hypovolemia and PEEP on recirculation in venovenous ECMO: an experimental porcine model.

IF 2.8 Q2 CRITICAL CARE MEDICINE Intensive Care Medicine Experimental Pub Date : 2024-06-01 DOI:10.1186/s40635-024-00636-5

Lars Prag Antonsen, Andreas Espinoza, Per Steinar Halvorsen, Itai Schalit, Harald Bergan, Didrik Lilja, Svein Aslak Landsverk

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Abstract

Background: Recirculation is a common problem in venovenous extracorporeal membrane oxygenation (VV ECMO) and may limit the effect of ECMO treatment due to less efficient blood oxygenation or unfavorable ECMO and ventilator settings. The impact of hypovolemia and positive end expiratory pressure (PEEP) on recirculation is unclear and poorly described in guidelines, despite clinical importance. The aim of this study was to investigate how hypovolemia, autotransfusion and PEEP affect recirculation in comparison to ECMO cannula distance and circuit flow.

Methods: In anesthetized and mechanically ventilated pigs (n = 6) on VV ECMO, we measured recirculation fraction (RF), changes in recirculation fraction (∆RF), hemodynamics and ECMO circuit pressures during alterations in PEEP (5 cmH₂O vs 15 cmH₂O), ECMO flow (3.5 L/min vs 5.0 L/min), cannula distance (10-14 cm vs 20-26 cm intravascular distance), hypovolemia (1000 mL blood loss) and autotransfusion (1000 mL blood transfusion).

Results: Recirculation increased during hypovolemia (median ∆RF 43%), high PEEP (∆RF 28% and 12% with long and short cannula distance, respectively), high ECMO flow (∆RF 49% and 28% with long and short cannula distance, respectively) and with short cannula distance (∆RF 16%). Recirculation decreased after autotransfusion (∆RF - 45%).

Conclusions: In the present animal study, hypovolemia, PEEP and autotransfusion were important determinants of recirculation. The alterations were comparable to other well-known factors, such as ECMO circuit flow and intravascular cannula distance. Interestingly, hypovolemia increased recirculation without significant change in ECMO drainage pressure, whereas high PEEP increased recirculation with less negative ECMO drainage pressure. Autotransfusion decreased recirculation. The findings are interesting for clinical studies.

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低血容量和 PEEP 对静脉 ECMO 再循环的影响：猪实验模型。

背景：再循环是静脉体外膜氧合（VV ECMO）的常见问题，可能会因血液氧合效率较低或 ECMO 和呼吸机设置不利而限制 ECMO 治疗的效果。低血容量和呼气末正压（PEEP）对再循环的影响尚不明确，尽管在临床上很重要，但在指南中描述得很少。本研究旨在探讨低血容量、自体输血和 PEEP 与 ECMO 插管距离和回路流量相比对再循环有何影响：在使用 VV ECMO 的麻醉猪和机械通气猪（n = 6）中，我们测量了再循环分数（RF）、再循环分数变化（ΔRF）、血液动力学以及 PEEP（5 cmH2O vs 15 cmH2O）、ECMO 流量（3.5 L/min vs 5.0 L/min）、插管距离（10-14 cm vs 20-26 cm 血管内距离）、低血容量（1000 mL 失血）和自体输血（1000 mL 输血）时的血液动力学和 ECMO 循环压力：低血容量（中位数 ∆RF 43%）、高 PEEP（长插管距离和短插管距离的 ∆RF 分别为 28% 和 12%）、高 ECMO 流量（长插管距离和短插管距离的 ∆RF 分别为 49% 和 28%）和短插管距离（∆RF 16%）时再循环增加。自体输血后再循环减少（∆RF - 45%）：在本动物实验中，低血容量、PEEP 和自体输血是决定再循环的重要因素。这些变化与 ECMO 循环流量和血管内插管距离等其他众所周知的因素相当。有趣的是，低血容量增加了再循环，但 ECMO 引流压力没有显著变化，而高 PEEP 增加了再循环，但 ECMO 引流负压较低。自体输血减少了再循环。这些发现对临床研究很有意义。

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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