Simple and reliable method for predicting extracorporeal membrane oxygenation flow rates and circuit pressures
Kazuhiro Takahashi, Seiga Takahashi, Yusuke Takei, Yu Kaiho, Takahiro Imaizumi, Kenji Kikuchi, Takuji Ishikawa, Yutaka Ejima, Masanori Yamauchi

TL;DR
This paper introduces a reliable method to predict ECMO flow rates and circuit pressures using fluid dynamics, improving patient safety and cannula selection.
Contribution
A novel four-step predictive method for ECMO flow and pressure estimation based on fluid dynamics principles.
Findings
The predicted and measured ECMO parameters showed strong agreement (R2 = 0.96–0.97).
Bed height changes affect circuit pressure but not flow rate.
Abstract
Venovenous extracorporeal membrane oxygenation (ECMO) is essential for patients with severe respiratory failure who do not respond to conventional mechanical ventilation. Adequate ECMO flow and safe circuit pressure are critical; however, cannula selection, which has a great impact on these factors, is often based on empirical judgment. This study aimed to develop a simple predictive method based on fluid dynamics for estimating ECMO flow rate and circuit pressures (P1: pre-pump, P2: pre-oxygenator, and P3: post-oxygenator). This experimental predictive model study compared the calculated and measured ECMO parameters across 36 combinations of cannula sizes, pump speeds, and bed heights. A laboratory-based ECMO circuit model was assembled with various drainage and return cannulas, an oxygenator, tubing, and a centrifugal pump. The circuit was primed with a 33% glycerin solution and…
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Taxonomy
TopicsMechanical Circulatory Support Devices · Membrane Separation Technologies · Nosocomial Infections in ICU
