Non-invasive Ventilation: Effect of Vented and Non-vented Exhalation Systems on Inspiratory CO.sub.2 and O.sub.2 Concentrations, Ventilation, and Breathing Pattern

Non-invasive Ventilation: Effect of Vented and Non-vented Exhalation Systems on Inspiratory CO.sub.2 and O.sub.2 Concentrations, Ventilation, and Breathing Pattern

Introduction To increase CO.sub.2 elimination and to reduce work of breathing in hypercapnic patients, non-invasive ventilation (NIV) can be applied via mask either with non-vented CO.sub.2 exhalation systems or with vented systems with leak port. The effect of the exhalation system on CO.sub.2 rebr...

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Bibliographic Details
Published in:Lung Vol. 200; no. 2; p. 251
Main Authors: Franke, Karl-Josef, Schroeder, Maik, Domanski, Ulrike, Dewald, Barbara, Nilius, Georg
Format: Journal Article
Language:English
Published: Springer 01-04-2022
Subjects:
Artificial respiration
Care and treatment
Hypercapnia
Lung diseases, Obstructive
Methods
Patient outcomes
Germany
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Summary:Introduction To increase CO.sub.2 elimination and to reduce work of breathing in hypercapnic patients, non-invasive ventilation (NIV) can be applied via mask either with non-vented CO.sub.2 exhalation systems or with vented systems with leak port. The effect of the exhalation system on CO.sub.2 rebreathing in the mask and total gas exchange remains widely unknown. Aim of this study was to compare the exhalation systems in terms of inspiratory O.sub.2 and CO.sub.2 concentrations, breathing patterns and gas exchange. Methods We prospectively examined 10 healthy subjects and 10 hypercapnic patients with both exhalation systems. O.sub.2 and CO.sub.2 were measured in the nose, in the mask, and in the ventilation circuit, and respiratory rate, tidal volume, and transcutaneous capnometry (PtcCO.sub.2) were recorded during the experiments. Results Using the non-vented system, CO.sub.2 concentrations in the mask were significantly higher in both subject groups, and PtcCO.sub.2 values in the patient group increased up to 3.6 mmHg compared to the vented system (p = 0.011). O.sub.2 concentrations increased with higher O.sub.2 flow rates, but were significantly lower in the vented settings in both groups. No effect in breathing pattern could be demonstrated during the measurement time. Conclusion Using NIV, the chosen exhalation system influences CO.sub.2 and O.sub.2 concentrations under the mask, CO.sub.2 rebreathing from the mask and could influence the effectiveness of the ventilation support with regards to hypercapnia treatment. To compensate for relevant hypoxia, the O.sub.2 supplementation must be set up to a sufficient level under a vented system.
ISSN:0341-2040
DOI:10.1007/s00408-022-00520-7