Carbon dioxide rebreathing in non-invasive ventilation. Analysis of masks, expiratory ports and ventilatory modes

Carbon dioxide rebreathing in non-invasive ventilation. Analysis of masks, expiratory ports and ventilatory modes

Background and Aim. Carbon dioxide (CO2) rebreathing is a complication of non-invasive ventilation (NIV). Our objectives were to evaluate the ability of masks with exhaust vents (EV) to avoid rebreathing while using positive pressure (PP) NIV with different levels of expiratory pressure (EPAP). Conc...

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Main Authors: D. Samolski, N. Calaf, R. Güell, P. Casan, A. Antón
Format: Article
Language:English
Published: PAGEPress Publications 2016-01-01
Series:Monaldi Archives for Chest Disease
Subjects:
CO2 rebreathing
Nasal and facial masks
Expiratory devices
Pressure and volume-cycled ventilators
Online Access:https://www.monaldi-archives.org/index.php/macd/article/view/388
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spelling doaj-2bbda3f6069c4cd28ff609e5e207d79a2020-11-24T22:01:44ZengPAGEPress PublicationsMonaldi Archives for Chest Disease1122-06432532-52642016-01-0169310.4081/monaldi.2008.388Carbon dioxide rebreathing in non-invasive ventilation. Analysis of masks, expiratory ports and ventilatory modesD. Samolski0N. Calaf1R. Güell2P. Casan3A. Antón4Respiratory Dept. Hospital de la Santa Creu i Sant Pau, BarcelonaRespiratory Dept. Hospital de la Santa Creu i Sant Pau, BarcelonaRespiratory Dept. Hospital de la Santa Creu i Sant Pau, BarcelonaRespiratory Dept. Hospital de la Santa Creu i Sant Pau, BarcelonaRespiratory Dept. Hospital de la Santa Creu i Sant Pau, BarcelonaBackground and Aim. Carbon dioxide (CO2) rebreathing is a complication of non-invasive ventilation (NIV). Our objectives were to evaluate the ability of masks with exhaust vents (EV) to avoid rebreathing while using positive pressure (PP) NIV with different levels of expiratory pressure (EPAP). Concerning volume-cycled NIV, we aimed to determine whether cylindrical spacers located in the circuit generate rebreathing. Materials and methods. 5 healthy volunteers were evaluated. Bi-level PP was used with 3 nasal and 2 facial masks with and without EV. Spacers of increasing volume attached to nasal hermetic masks were evaluated with volume NIV. Inspired CO2 fraction was analyzed. Results. Rebreathing was zero with all nasal masks and EPAP levels. Using facial masks 1 volunteer showed rebreathing. There was no rebreathing while using all the spacers. Conclusions. In healthy volunteers, nasal and facial masks with EV prevent rebreathing. In addition, the use of spacers did not generate this undesirable phenomenon.https://www.monaldi-archives.org/index.php/macd/article/view/388CO2 rebreathingNasal and facial masksExpiratory devicesPressure and volume-cycled ventilators
collection DOAJ
language English
format Article
sources DOAJ
author D. Samolski
N. Calaf
R. Güell
P. Casan
A. Antón
spellingShingle D. Samolski
N. Calaf
R. Güell
P. Casan
A. Antón
Carbon dioxide rebreathing in non-invasive ventilation. Analysis of masks, expiratory ports and ventilatory modes
Monaldi Archives for Chest Disease
CO2 rebreathing
Nasal and facial masks
Expiratory devices
Pressure and volume-cycled ventilators
author_facet D. Samolski
N. Calaf
R. Güell
P. Casan
A. Antón
author_sort D. Samolski
title Carbon dioxide rebreathing in non-invasive ventilation. Analysis of masks, expiratory ports and ventilatory modes
title_short Carbon dioxide rebreathing in non-invasive ventilation. Analysis of masks, expiratory ports and ventilatory modes
title_full Carbon dioxide rebreathing in non-invasive ventilation. Analysis of masks, expiratory ports and ventilatory modes
title_fullStr Carbon dioxide rebreathing in non-invasive ventilation. Analysis of masks, expiratory ports and ventilatory modes
title_full_unstemmed Carbon dioxide rebreathing in non-invasive ventilation. Analysis of masks, expiratory ports and ventilatory modes
title_sort carbon dioxide rebreathing in non-invasive ventilation. analysis of masks, expiratory ports and ventilatory modes
publisher PAGEPress Publications
series Monaldi Archives for Chest Disease
issn 1122-0643
2532-5264
publishDate 2016-01-01
description Background and Aim. Carbon dioxide (CO2) rebreathing is a complication of non-invasive ventilation (NIV). Our objectives were to evaluate the ability of masks with exhaust vents (EV) to avoid rebreathing while using positive pressure (PP) NIV with different levels of expiratory pressure (EPAP). Concerning volume-cycled NIV, we aimed to determine whether cylindrical spacers located in the circuit generate rebreathing. Materials and methods. 5 healthy volunteers were evaluated. Bi-level PP was used with 3 nasal and 2 facial masks with and without EV. Spacers of increasing volume attached to nasal hermetic masks were evaluated with volume NIV. Inspired CO2 fraction was analyzed. Results. Rebreathing was zero with all nasal masks and EPAP levels. Using facial masks 1 volunteer showed rebreathing. There was no rebreathing while using all the spacers. Conclusions. In healthy volunteers, nasal and facial masks with EV prevent rebreathing. In addition, the use of spacers did not generate this undesirable phenomenon.
topic CO2 rebreathing
Nasal and facial masks
Expiratory devices
Pressure and volume-cycled ventilators
url https://www.monaldi-archives.org/index.php/macd/article/view/388
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AT ncalaf carbondioxiderebreathinginnoninvasiveventilationanalysisofmasksexpiratoryportsandventilatorymodes
AT rguell carbondioxiderebreathinginnoninvasiveventilationanalysisofmasksexpiratoryportsandventilatorymodes
AT pcasan carbondioxiderebreathinginnoninvasiveventilationanalysisofmasksexpiratoryportsandventilatorymodes
AT aanton carbondioxiderebreathinginnoninvasiveventilationanalysisofmasksexpiratoryportsandventilatorymodes
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