This study intended to assess the expiratory flow limitation (EFL) during tidal breath in patients intubated in intensive care unit (ICU) for moderate or severe acute respiratory distress syndrome (ARDS). EFL is defined as the lack of increase in expiratory flow in response to an increase in alveolar-to-atmospheric pressure gradient. It reflects airway closure. Early studies have been done using the Negative expiratory pressure (NEP) technique, which is no longer available. We proposed in present study a new method, which consists of diverting manually the expiratory flow to the atmosphere by-passing the expiratory valve. We aimed at assessing EFL at positive expiratory pressure (PEP) 5 cmH2O in semi-recumbent then in supine position together with measurement of trans-pulmonary pressure and regional lung ventilation. Higher PEP levels will be tested, namely 10, 15 and a trans-pulmonary PEP of 3 cmH2O, in semi-recumbent position.
Study Type
INTERVENTIONAL
Allocation
NON_RANDOMIZED
Purpose
DIAGNOSTIC
Masking
NONE
Enrollment
25
increase in positive end expiratory pressure from 5 to 10 then 15 cmH2O then at the value for trans pulmonary end expiratory pressure amounting to 3 cmH2O
CHU Grenoble Alpes
Grenoble, France
Hôpital de la Croix Rousse
Lyon, France
EFL at PEP 5 cmH2O
A Fleish 2 pneumotachograph and a port to measure airway pressure are attached at the Y piece of the ventilator circuit and connected to a Biopac 150. At the end of inspiration the air is expelled to the atmosphere upstream the expiratory valve. The flow volume loop at baseline and that during the manoeuver are plotted and patients classified as EFL or not EFL (NFL). Measurements are taken in semi-recumbent then after 5 minutes in supine position.
Time frame: at inclusion
Trans-pulmonary pressure at end expiratory at PEP 5
After insertion of esophageal balloon together with pneumotachograph and port for airway pressure trans-pulmonary pressure (airway-esophageal pressure) is measured after a 3-sec end-expiratory pause in semi-recumbent and then after 5 minutes in supine position
Time frame: at inclusion
Trans-pulmonary pressure at end expiratory at PEP 10 in EFL and NFL patients
PEP is increased to 10 cmH2O and 15 minutes later trans-pulmonary pressure is measured after a 3-sec end-expiratory pause in semi-recumbent position
Time frame: 15 minutes after PEP set to 10 cm H2O
Lung compliance at PEP 10 in EFL and NFL patients
PEP is increased to 10 cmH2O and 15 minutes later lung compliance is measured after a 3-sec end-expiratory pause in semi-recumbent position
Time frame: 15 minutes after PEP set to 10 cm H2O
lung ventilation distribution at PEP 10 in EFL and NFL patients
PEP is increased to 10 cmH2O and 15 minutes later lung ventilation is measured by using electrical impedance tomography (EIT) in semi-recumbent position (an EIT belt having been inserted together with the previous measurement devices).
Time frame: 15 minutes after PEP set to 10 cm H2O
Transcutaneous oxygen saturation (SpO2) at PEP 10 in EFL and NFL patients
PEP is increased to 15cmH2O and 15 minutes later SpO2 is read from the vital functions monitoring device and SpO2/FIO2 computed
Time frame: 15 minutes after PEP set to 10 cm H2O
Trans-pulmonary pressure at end expiratory at PEP 15 in EFL and NFL patients
PEP is increased to 15 cmH2O and 15 minutes later trans-pulmonary pressure is measured after a 3-sec end-expiratory pause in semi-recumbent position
Time frame: 15 minutes after PEP set to 15 cm H2O
Lung compliance at PEP 15 in EFL and NFL patients
PEP is increased to 15 cmH2O and 15 minutes later lung compliance is measured after a 3-sec end-expiratory pause in semi-recumbent position
Time frame: 15 minutes after PEP set to 15 cm H2O
lung ventilation distribution at PEP 15 in EFL and NFL patients
PEP is increased to 15 cmH2O and 15 minutes later lung ventilation is measured by using electrical impedance tomography (EIT) in semi-recumbent position (an EIT belt having been inserted together with the previous measurement devices).
Time frame: 15 minutes after PEP set to 15 cm H2O
transcutaneous oxygen saturation (SpO2) at PEP 15 in EFL and NFL patients
PEP is increased to 15 cmH2O and 15 minutes later SpO2 is read from the vital functions monitoring device and SpO2/FIO2 computed.
Time frame: 15 minutes after PEP set to 15 cm H2O
Trans-pulmonary pressure at end expiratory at PEP to reach Trans-pulmonary pressure at end expiratory =+3 cmH2O in EFL and NFL patients
PEP is set to reach Trans-pulmonary pressure at end expiratory =+3 cmH2O and 15 minutes later trans-pulmonary pressure is measured after a 3-sec end-expiratory pause in semi-recumbent position
Time frame: 15 minutes after PEP set to reach Trans-pulmonary pressure at end expiratory =+3 cmH2O
Lung compliance at PEP to reach Trans-pulmonary pressure at end expiratory =+3 cmH2O in EFL and NFL patients
PEP is set to reach Trans-pulmonary pressure at end expiratory =+3 cmH2O and 15 minutes later lung compliance is measured after a 3-sec end-expiratory pause in semi-recumbent position
Time frame: 15 minutes after PEP set to reach Trans-pulmonary pressure at end expiratory =+3 cmH2O
lung ventilation distribution at PEP set to reach Trans-pulmonary pressure at end expiratory =+3 cmH2O in EFL and NFL patients
PEP is set to reach Trans-pulmonary pressure at end expiratory =+3 cmH2O and 15 minutes later lung ventilation is measured by using electrical impedance tomography (EIT) in semi-recumbent position (an EIT belt having been inserted together with the previous measurement devices).
Time frame: 15 minutes after PEP set to reach Trans-pulmonary pressure at end expiratory =+3 cmH2O
Transcutaneous oxygen saturation (SpO2) at PEEP set to reach Trans-pulmonary pressure at end expiratory =+3 cmH2O in EFL and NFL patients
PEEP is increased to 15 cmH2O and 15 minutes later SpO2 is read from the vital functions monitoring device and SpO2/FIO2 computed.
Time frame: 15 minutes after PEEP set to reach Trans-pulmonary pressure at end expiratory =+3 cmH2O
lung recruitment at PEEP 10 in EFL and NFL patients
PEEP is increased to 10 cmH2O and 15 minutes later lung recruitment is measured between PEEP 10 and PEEP 5 (in each body position) from volume-pressure curves recorded at PEEP 10 and PEEP 5. The lung recruitment is the change in lung volume for a given pressure (higher PEEP and 20 cmH2O)
Time frame: 15 minutes after PEEP set to 10 cm H2O
lung recruitment at PEEP 15 in EFL and NFL patients
PEEP is increased to 15 cmH2O and 15 minutes later lung recruitment is measured between PEEP 15 and PEEP 5 (in each body position) from volume-pressure curves recorded at PEEP 15 and PEEP 5. The lung recruitment is the change in lung volume for a given pressure (higher PEEP and 20 cmH2O)
Time frame: 15 minutes after PEEP set to 15 cm H2O
lung recruitment at PEEP set to reach Trans-pulmonary pressure at end expiratory =+3 cmH2O in EFL and NFL patients in EFL and NFL patients
PEEP is increased to PEEP set to reach Trans-pulmonary pressure at end expiratory =+3 cmH2O and 15 minutes later lung recruitment is measured between PEEP set to reach Trans-pulmonary pressure at end expiratory =+3 cmH2O and PEEP 5 (in each body position) from volume-pressure curves recorded at PEEP set to reach Trans-pulmonary pressure at end expiratory =+3 cmH2O and PEEP 5. The lung recruitment is the change in lung volume for a given pressure (higher PEEP and 20 cmH2O)
Time frame: 15 minutes after PEEP set to 15 cm H2O
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