Author: Moller, Per W; Hana, Anisa; Heinisch, Paul Philipp; Liu, Shengchen; Djafarzadeh, Siamak; Haenggi, Matthias; Bloch, Andreas; Takala, Jukka; Jakob, Stephan M; Berger, David
Title: The Effects of Vasoconstriction And Volume Expansion on Veno-Arterial ECMO Flow. Cord-id: qix0bnc9 Document date: 2019_1_1
ID: qix0bnc9
Snippet: BACKGROUND Veno-arterial extracorporeal membrane oxygenation (VA-ECMO) is gaining widespread use in the treatment of severe cardiorespiratory failure. Blood volume expansion is commonly used to increase ECMO flow (QECMO), with risk of positive fluid balance and worsening prognosis. We studied the effects of vasoconstriction on recruitment of blood volume as an alternative for increasing QECMO, based on the concepts of venous return. METHODS In a closed chest, centrally cannulated porcine prepara
Document: BACKGROUND Veno-arterial extracorporeal membrane oxygenation (VA-ECMO) is gaining widespread use in the treatment of severe cardiorespiratory failure. Blood volume expansion is commonly used to increase ECMO flow (QECMO), with risk of positive fluid balance and worsening prognosis. We studied the effects of vasoconstriction on recruitment of blood volume as an alternative for increasing QECMO, based on the concepts of venous return. METHODS In a closed chest, centrally cannulated porcine preparation (n = 9) in ventricular fibrillation and VA-ECMO with vented left atrium, mean systemic filling pressure (MSFP), and venous return driving pressure (VRdP) were determined in Euvolemia, during Vasoconstriction (norepinephrine 0.05, 0.125, and 0.2 μg/kg/min) and after Volume Expansion (3 boluses of 10 mL/kg Ringer's lactate). Maximum achievable QECMO was examined. RESULTS Vasoconstriction and Volume Expansion both increased maximum achievable QECMO, delivery of oxygen (DO2), and MSFP, but right atrial pressure increased in parallel. VRdP did not change. The vascular elastance curve was shifted to the left by Vasoconstriction, with recruitment of stressed volume. It was shifted to the right by Volume Expansion with direct expansion of stressed volume. Volume Expansion decreased resistance to venous return and pump afterload. CONCLUSIONS In a circulation completely dependent on ECMO support, maximum achievable flow directly depended on the vascular factors governing venous return-i.e., closing conditions, stressed vascular volume and the elastance and resistive properties of the vasculature. Both treatments increased maximum achievable ECMO flow at stable DO2, via increases in stressed volume by different mechanisms. Vascular resistance and pump afterload decreased with Volume Expansion.
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