Water as a Blood Model for Determination of CO2 Removal Performance of Membrane Oxygenators

Lukitsch, Benjamin; Koller, Raffael; Ecker, Paul; Elenkov, Martin; Janeczek, Christoph; Pekovits, Markus; Haddadi, Bahram; Jordan, Christian; Gfoehler, Margit; Harasek, Michael

doi:10.3390/membranes11050356

Membranes

2021

DOI: 10.3390/membranes11050356

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Water as a Blood Model for Determination of CO2 Removal Performance of Membrane Oxygenators

Benjamin Lukitsch

Raffael Koller

Paul Ecker

et al.

Abstract: CO2 removal via membrane oxygenators has become an important and reliable clinical technique. Nevertheless, oxygenators must be further optimized to increase CO2 removal performance and to reduce severe side effects. Here, in vitro tests with water can significantly reduce costs and effort during development. However, they must be able to reasonably represent the CO2 removal performance observed with blood. In this study, the deviation between the CO2 removal rate determined in vivo with porcine blood from tha… Show more

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Cited by 2 publications

References 28 publications

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A Wearable Extracorporeal CO2 Removal System with a Closed-Loop Feedback

Zhang,

Haimowitz,

Tharwani

et al. 2024

Bioengineering

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Extracorporeal Carbon Dioxide Removal (ECCO2R) systems support patients with severe respiratory failure. Concurrent ambulation and physical therapy improve patient outcomes, but these procedures are limited by the complexity and size of the extracorporeal systems and rapid changes in patient metabolism and the acid–base balance. Here, we present the first prototype of a wearable ECCO2R system capable of adjusting to a patient’s changing metabolic needs. Exhaust gas CO2 (EGCO2) partial pressure is used as an analog for blood CO2 partial pressure (pCO2). Twin blowers modulate sweep gas through the AL to achieve a desired target EGCO2. The integrated system was tested in vitro for 24 h with water, under varying simulated metabolic conditions and target EGCO2 values, and in a single test with whole blood. When challenged with changing inlet water pCO2 levels in in vitro tests, the system adjusted the sweep gas to achieve target EGCO2 within 1 min. Control runs with a fixed sweep gas (without negative feedback) demonstrated higher EGCO2 levels when challenged with higher water flow rates. A single in vitro test with whole ovine blood confirmed functionality in blood. This is the first step toward wearable ECCO2R systems that automatically respond to changing metabolism. Such devices would facilitate physical therapy and grant greater autonomy to patients.

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A Wearable Extracorporeal CO2 Removal System with a Closed-Loop Feedback

Zhang,

Haimowitz,

Tharwani

et al. 2024

Bioengineering

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show abstract

Numerical Modeling in Membrane Processes

Deon

Dutournié

2022

Membranes

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Water as a Blood Model for Determination of CO2 Removal Performance of Membrane Oxygenators

Cited by 2 publications

References 28 publications

A Wearable Extracorporeal CO2 Removal System with a Closed-Loop Feedback

A Wearable Extracorporeal CO2 Removal System with a Closed-Loop Feedback

Numerical Modeling in Membrane Processes

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