Study Results
The study team has not published outcome measurements, participant flow, or safety data for this trial yet. Check back later for updates.
Basic Information
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RECRUITING
NA
28 participants
INTERVENTIONAL
2023-09-12
2026-05-31
Brief Summary
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The main questions it aims to answer are:
* Is the mechanical power during flow-controlled ventilation lower than during pressure-controlled ventilation
* To gain more understanding about other physiological effects and potential benefits of flow-controlled ventilation in comparison to pressure-controlled ventilation (o.a. the end-expiratory lung volume and homogeneity of ventilation).
Participants will be randomized between two ventilation mode sequences, being 90 minutes of FCV followed by 90 minutes of PCV or vice versa.
Detailed Description
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The investigators hypothesize that FCV in patients with moderate to severe ARDS results in a lower MP and an increased EELV compared to standard CMV modes (PCV or VCV).
Objectives: To study the effect of FCV on the MP and the EELV compared to PCV.
Study design: Randomized crossover physiological pilot study comparing FCV and PCV.
Study population: Patients with moderate to severe ARDS ≥ 18 years old receiving CMV.
Intervention: Patients are mechanically ventilated with PCV mode at baseline. Upon inclusion the EIT-belt and an esophageal balloon are placed to assess the EELV and transpulmonary pressures respectively. Besides, participants are randomized between the sequence of ventilation mode, namely 90 minutes of PCV followed by 90 minutes of FCV or 90 minutes of FCV followed by 90 minutes of PCV. When PCV is switched to FCV the same mechanical ventilator settings are used as in the PCV mode. After half an hour on FCV the PEEP, driving pressure and flow of FCV are optimized based on the highest compliance and lowest flow matching with a stable PaCO2 thereby not exceeding lung protective ventilation limits (transpulmonary driving pressure ≤ 12cmH2O and tidal volumes ≤ 8 ml/kg ideal body weight (IBW)). PCV is always set according to standard of care. Total time of measurements / study time is 180 minutes.
Main study parameters/endpoints: Primary endpoint is the difference in MP after 90 minutes on FCV compared to after 90 minutes of PCV. An important secondary endpoint is the difference in EELV after 30 minutes on FCV compared to after 30 minutes of PCV.
Nature and extent of the burden and risks associated with participation, benefit and group relatedness: All participants are sedated and on CMV, therefore there will be no discomfort for the patient. FCV has been successfully applied during surgery and on the ICU and the patient will be monitored continuously so the clinical team can act directly in case of any adverse event. Lung volume is measured with EIT, a non-invasive, radiation-free monitoring tool. Transpulmonary pressures are measured with an esophageal balloon that is placed in a similar manor as a nasogastric feeding tube. During optimization of FCV no lung protective ventilation limits will be exceeded. Therefore, overall, the risks of this study are limited.
Conditions
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Keywords
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Study Design
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RANDOMIZED
CROSSOVER
TREATMENT
NONE
Study Groups
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FCV-PCV
90 minutes of flow-controlled ventilation followed by 90 minutes of pressure-controlled ventilation.
Flow-controlled ventilation
Flow-controlled ventilation (FCV)
PCV-FCV
90 minutes of pressure-controlled ventilation followed by 90 minutes of flow-controlled ventilation.
Flow-controlled ventilation
Flow-controlled ventilation (FCV)
Interventions
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Flow-controlled ventilation
Flow-controlled ventilation (FCV)
Eligibility Criteria
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Inclusion Criteria
* Provided written informed consent
* Undergoing controlled mechanical ventilation via an endotracheal tube
* Meeting all criteria of the Berlin definition of ARDS
* Hypoxic respiratory failure within 1 week of a known clinical insult or new or worsening respiratory symptoms
* Bilateral opacities on X-ray or CT-scan not fully explained by effusions, lobar/lung collapse (atelectasis), or nodules
* Respiratory failure not fully explained by cardiac failure or fluid overload.
* Oxygenation: moderate ARDS P/F ratio between 101-200 mmHg, severe ARDS PF ratio ≤ 100mmHg, both with PEEP ≥ 5 cmH2O.
* Intubated ≤72 hours
Exclusion Criteria
* Untreated pneumothorax (i.e., no pleural drainage)
* Hemodynamic instability defined as a mean arterial pressure below 60mmHg not responding to fluids and/or vasopressors or a noradrenalin dose \>0.5mcrg/kg/min
* High (\>15 mmHg) or instable (an increase in sedation or osmotherapy is required) intracranial pressure
* An inner tube diameter of 6mm or less
* Intubated \> 72 hours
* Anticipating withdrawal of life support and/or shift to palliation as the goal of care
* Inability to perform adequate electrical impedance tomography (EIT) measurements with, e.g.:
* Have a thorax circumference inappropriate for EIT-belt
* Thoracic wounds, bandages or deformities preventing adequate fit of EIT-belt
* Recent (\<7 days) pulmonary surgery including pneumonectomy, lobectomy or lung transplantation
* ICD device present (potential interference with proper functioning of the EIT device and ICD device)
* Excessive subcutaneous emphysema
* Contra-indications for nasogastric tube or inability to perform adequate transpulmonary pressure measurements with, e.g.:
* Recent esophageal surgery
* Prior esophagectomy
* Known presence of esophageal varices
* Severe bleeding disorders
18 Years
ALL
No
Sponsors
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Maasstad Hospital
OTHER
Erasmus Medical Center
OTHER
Responsible Party
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Henrik Endeman
Principal Investigator
Principal Investigators
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Rik Endeman, Dr
Role: PRINCIPAL_INVESTIGATOR
Erasmus Medical Center
Locations
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Maasstad Hospital
Rotterdam, South Holland, Netherlands
Countries
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Central Contacts
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Facility Contacts
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Dolf Weller
Role: primary
Other Identifiers
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ABR NL83234.078.23
Identifier Type: -
Identifier Source: org_study_id