Mechanically ventilated patients exhibit decreased particle flow in exhaled breath as compared to normal breathing patients

Broberg, Ellen; Andréasson, Jesper; Fakhro, Mohammed; Olin, Anna‐Carin; Wagner, Darcy E.; Hyllén, Snejana; Lindstedt, Sandra

doi:10.1183/23120541.00198-2019

Cited by 10 publications

(17 citation statements)

References 22 publications

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“…This study reiterates the finding that measurement of PFR using the PExA device is safe in conjunction with mechanical ventilation [ 18 , 19 , 21 ]. This was concluded as there were no signs of significant air leakage, haemodynamic impact or increased peak pressures which could be harmful to the patients.…”

Section: Discussionsupporting

confidence: 79%

“…Our hypothesis regarding high PFR during PSV ventilation follows that while initiating their own breath in this mode, patients use a breathing pattern similar to that of spontaneously breathing patients. As seen in a previous study, PFR in spontaneously breathing patients is significantly higher than that found in patients placed on mechanical ventilation [ 21 ]. The use of the diaphragm, as in spontaneous breathing, promotes the opening and closing of the distal airways and may thus influence the production of EBPs [ 12 ].…”

Section: Discussionmentioning

confidence: 53%

“…As seen in a previous study, PFR in spontaneously breathing patients is significantly higher than that found in patients placed on mechanical ventilation (21). The use of the diaphragm, as in spontaneous breathing, promotes the opening and closing of the distal airways and may thus influence the production of EBPs (12).…”

Section: Discussionmentioning

confidence: 60%

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Particle flow rate from the airways as fingerprint diagnostics in mechanical ventilation in the intensive care unit: a randomised controlled study

et al. 2021

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IntroductionMechanical ventilation (MV) can be monitored by analysing particles in exhaled air as measured by particle flow rate (PFR). This could be a potential method of detecting ventilator induced lung injury (VILI) before changes in conventional parameters can be detected. The aim of this study was to investigate PFR during different ventilation modes in patients without lung pathology.MethodA prospective study was conducted on patients on MV in the cardiothoracic intensive care unit (ICU). A PExA 2.0 device was connected to the expiratory limb on the ventilator for continuous measurement of PFR in 30 patients randomised to either volume-controlled ventilation (VCV) or pressure-controlled ventilation (PCV) for 30 min including a recruitment manoeuvre (RM). PFR measurements were continued as the patients were transitioned to pressure regulated volume control (PRVC) and then pressure support ventilation (PSV) until extubation.ResultsPRVC resulted in significantly lower PFR while those on PSV had the highest PFR. The distribution of particles differed significantly between the different ventilation modes.ConclusionsMeasuring PFR is safe after cardiac surgery in the ICU and may constitute a novel method of continuously monitoring the small airways in real time. A low PFR during mechanical ventilation may correlate to a gentle ventilation strategy. PFR increases as the patient transitions from controlled MV to autonomous breathing, which most likely occurs as recruitment by the diaphragm opens up more distal airways. Different ventilation modes resulted in unique particle patterns and could be used as a fingerprint for the different ventilation modes.

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Section: Discussionsupporting

confidence: 79%

Section: Discussionmentioning

confidence: 53%

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Particle flow rate from the airways as fingerprint diagnostics in mechanical ventilation in the intensive care unit: a randomised controlled study

et al. 2021

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“…A previous study with the Pexa technique showed that different tidal volumes and different PEEP resulted in different particle count from the airways in vivo, post mortem and during ex vivo lung perfusion [8]. In another study performed in the operating theatre showed that patients on mechanical ventilation with the use of PEEP compared to normal breathing patients display a lower particle count [14]. These ndings indicate that an open airway during mechanical ventilation generates lower levels of particles compared to an airway that repeatedly collapses and reopens.…”

Section: Discussionmentioning

confidence: 99%

Different particle flow from exhaled air after gradual increase of PEEP during mechanical ventilation

Broberg¹,

Pierre

Fakhro

et al. 2022

Preprint

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Objectives: Detecting particle flow from the airways by none invasively online analysing technique might serve as an additional tool to monitor mechanical ventilation. In the present study we used a customised Pexa (Particles in Exhaled Air), which is an optical particle counter for airway monitoring of particle flow in exhaled air. Positive end expiratory pressure (PEEP) is often used as a tool during recruitment manoeuvre and the aim of this study was to investigate the impact of different levels of PEEP on particle flow in exhaled in an experimental setting.Methods: Five animals received a gradual increase of 5 PEEP to a maximum of 25 PEEP during VCV. Measurements were done before every increase in PEEP in fully anaesthetised domestic pigs. The particle count along with vital parameters and ventilator settings were collected continuously. The particle sizes measured was between 0.41 µm and 4.55 µm.Results: All animals had a significant increase in particle count going from all increased levels of PEEP and back down to baseline PEEP of 5 cmH2O. Here shown with PEEP 15 that had a mean particle count of 401 ± 122 particles compared to after release of PEEP back to 5 with a mean particle count of 5968 ± 1784 (p<0.001). A significant decrease was seen in blood pressure in the higher levels of PEEP compared to PEEP 5 cmH2O.Conclusions: In the present study significant increase in particle count was seen when releasing PEEP back to baseline compared to all levels of PEEP. This finding may indicate that this technique can give diagnostic possibilities for monitoring lung function during mechanical ventilation.

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“…We reanalysed data from healthy volunteers (mean (SD) age 46(17) years, body mass index 23.9 (2.9) kg/m 2 , FEV 1 101.8(11.0) % predicted) using both previously published and unpublished data. 7,8 Studies were approved by the Ethical Review Board at the University of Gothenburg. For measures in confirmed airways disease, such as asthma and COPD, these data suggest that fewer droplets would be produced, potentially reducing risk, if a FEV manoeuvre was stopped once achieved and before exhalation to RV.…”

mentioning

confidence: 99%

Small droplet emission in exhaled breath during different breathing manoeuvres: Implications for clinical lung function testing during COVID‐19

Greening

Larsson

Ljungström

et al. 2020

Allergy

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Mechanically ventilated patients exhibit decreased particle flow in exhaled breath as compared to normal breathing patients

Cited by 10 publications

References 22 publications

Particle flow rate from the airways as fingerprint diagnostics in mechanical ventilation in the intensive care unit: a randomised controlled study

Particle flow rate from the airways as fingerprint diagnostics in mechanical ventilation in the intensive care unit: a randomised controlled study

Different particle flow from exhaled air after gradual increase of PEEP during mechanical ventilation

Small droplet emission in exhaled breath during different breathing manoeuvres: Implications for clinical lung function testing during COVID‐19

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