Author: Terzi, Nicolas; Rastello, Fabrice; Déhan, Christophe; Roux, Marion; Sigaud, Florian; Rigault, Guillaume; Fromentin, Cyril; Farrugia, Adrien; Guérin, Claude
Title: The eSpiro Ventilator: An Open-Source Response to a Worldwide Pandemic Cord-id: 05z71g08 Document date: 2021_5_27
ID: 05z71g08
Snippet: Objective: To address the issue of ventilator shortages, our group (eSpiro Network) developed a freely replicable, open-source hardware ventilator. Design: We performed a bench study. Setting: Dedicated research room as part of an ICU affiliated to a university hospital. Subjects: We set the lung model with three conditions of resistance and linear compliance for mimicking different respiratory mechanics of representative intensive care unit (ICU) patients. Interventions: The performance of the
Document: Objective: To address the issue of ventilator shortages, our group (eSpiro Network) developed a freely replicable, open-source hardware ventilator. Design: We performed a bench study. Setting: Dedicated research room as part of an ICU affiliated to a university hospital. Subjects: We set the lung model with three conditions of resistance and linear compliance for mimicking different respiratory mechanics of representative intensive care unit (ICU) patients. Interventions: The performance of the device was tested using the ASL5000 lung model. Measurements and Main Results: Twenty-seven conditions were tested. All the measurements fell within the ±10% limits for the tidal volume (V(T)). The volume error was influenced by the mechanical condition (p = 5.9 × 10(−15)) and the PEEP level (P = 1.1 × 10(−12)) but the clinical significance of this finding is likely meaningless (maximum −34 mL in the error). The PEEP error was not influenced by the mechanical condition (p = 0.25). Our experimental results demonstrate that the eSpiro ventilator is reliable to deliver V(T) and PEEP accurately in various respiratory mechanics conditions. Conclusions: We report a low-cost, easy-to-build ventilator, which is reliable to deliver V(T) and PEEP in passive invasive mechanical ventilation.
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