Monitoring and Control System Development and Experimental Validation for a Novel Extrapulmonary Respiratory Support Setup

This paper presents a novel mechatronic setup intended for providing respiratory support to patients suffering from pulmonary failure. The setup relies upon the circulation of an oxygenated perfluorocarbon (PFC) through the abdominal cavity. Such circulation provides a potential pathway for the tran...

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Veröffentlicht in:	arXiv.org 2021-07
Hauptverfasser:	Doosthosseini, Mahsa, Aroom, Kevin R, Aroom, Majid, Culligan, Melissa, Naselsky, Warren, Thamire, Chandrasekhar, Haslach, Henry W, Jr, Roller, Stephen A, Hughen, James Richard, Friedberg, Joseph S, Jin-Oh, Hahn, Fathy, Hosam K
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Sprache:	eng
Schlagworte:	Algorithms Control algorithms Cross correlation Modelling Monitoring Oxygenation Perfluorocarbons Temperature control
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creator	Doosthosseini, Mahsa Aroom, Kevin R Aroom, Majid Culligan, Melissa Naselsky, Warren Thamire, Chandrasekhar Haslach, Henry W Jr Roller, Stephen A Hughen, James Richard Friedberg, Joseph S Jin-Oh, Hahn Fathy, Hosam K
description	This paper presents a novel mechatronic setup intended for providing respiratory support to patients suffering from pulmonary failure. The setup relies upon the circulation of an oxygenated perfluorocarbon (PFC) through the abdominal cavity. Such circulation provides a potential pathway for the transport of oxygen to the bloodstream. However, the viability of this technology for $CO_2$ clearance has not been established. Moreover, there is a lack of experimental data enabling the modeling and identification of the underlying dynamics of this technology. To address these gaps, we develop a flexible experimental perfusion setup capable of monitoring and controlling key variables such as perfusate flowrate, temperature, pressure, and oxygenation. The paper (i) briefly summarizes the design of this setup; (ii) highlights the degree to which its data acquisition system enables the collection and cross-correlation of both perfusion-related and physiological variables; and (iii) discusses the development of flow, pressure, and temperature control algorithms for the setup. Experiments with large animals (swine) show that the setup is capable of successfully controlling the perfusion process, as well as gathering extensive data to support subsequent modeling and identification studies.
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subjects	Algorithms Control algorithms Cross correlation Modelling Monitoring Oxygenation Perfluorocarbons Temperature control
title	Monitoring and Control System Development and Experimental Validation for a Novel Extrapulmonary Respiratory Support Setup
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