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UnknownNCT06222463

Power Dissipation in Flow-controlled Ventilation

Power Dissipation in Low Tidal Volume Versus Individualized Flow-controlled Ventilation - a Randomized, Clinical Cross-over Trial

Status
Unknown
Phase
N/A
Study type
Interventional
Enrollment
20 (estimated)
Sponsor
Medical University Innsbruck · Academic / Other
Sex
All
Age
18 Years
Healthy volunteers
Not accepted

Summary

The goal of this randomized clinical cross-over trial is to compare power dissipation (Pd) during flow-controlled ventilation with either standard of low tidal volume ventilation or compliance guided individualization of ventilator settings. This study is performed in patients scheduled for open abdominal surgery and the primary and secondary outcome parameters are: * power dissipation \[J/min\] during ventilation calculated by integrating the hysteresis of the tracheal pressure-volume loop * applied mechanical power during ventilation calculated by published formulas \[1\] * oxygenation of the blood assessed by PaO2/FiO2 ratio * decarboxylation assessed by required respiratory minute volume to maintain normocapnia * comparison of respiratory variables in low tidal volume versus individualized ventilation Participants will randomly receive either low tidal volume (LTV) or individualized flow-controlled ventilation \[2\]. In the LTV group, the positive end-expiratory pressure will be set to 5 cmH2O and the peak pressure set to achieve a tidal volume of 7 ml/kg predicted body weight. In the individualized group positive end-expiratory and peak pressure will be titrated to achieve the highest compliance \[2\]. In both groups the flow will be set to achieve normocapnia (PaCO2 35-45 mmHg). After obtaining three consecutive measurements the ventilation strategy will be switched to the alternative regime in a cross-over design and again, three measurements recorded. The investigators hypothesize, that individualized ventilator settings are able to improve ventilation efficiency in terms of a lower required minute volume to maintain normocapnia and thus is able to reduce power dissipation during ventilation. Secondary endpoint will be a comparison of Pd to calculated mechanical power, as a currently accepted surrogate parameter for ventilation invasiveness \[2\] and also outcome predictor. Additionally, gas exchange parameters such as oxygenation and decarboxylation will be compared between low tidal volume and individualized ventilation.

Detailed description

After anesthesia induction and securing the airway with a tracheal tube, tha patients will be ventilated with flow-controlled ventilation (FCV) using standard of low tidal volume ventilation with a positive end-expiratory pressure (PEEP) of 5 cmH2O and the peak pressure set to achieve a tidal volume of 7 ml/kg predicted body weight. I:E ration will be set to 1:1, the gas flow adjusted to achieve normocapnia and the fraction of inspired oxygen adjusted to achieve normoxia. After opening the abdominal cavity baseline parameters will be recorded and subsequently the study participant randomized to one of the following treatment group: * low tidal volume ventilation (LTV): PEEP will be set to 5 cmH2O, peak pressure adjusted to achieve a tidal volume of 7 ml/kg predicted body weight and the flow set to achieve normocapnia (PaCO2 of 35-45 mmHg) * individualized FCV: PEEP and peak pressure will be titrated based on dynamic compliance. First PEEP well be increased or decreased until the highest tidal volume at the same driving pressure can be achieved. Then the driving pressure or peak pressure will be increased, until there is no further over-proportional increase in tidal volume (previous tidal volume + measured compliance). Finally the gas flow will be set to achieve normocapnia (PaCO2 of 35-45 mmHg) Three measurements will be obtained with 15 minutes in between and subsequently the ventilation setting switched to the alternative group, followed by additional three consecutive measurements. After obtaining all study related measurements the observation period ends and the patient will be further treated with the ventilation strategy that results in the lowest energy dissipation.

Conditions

Interventions

TypeNameDescription
DEVICEEvoneEvone (Ventinova Medical B.V., Eindhoven, The Netherlands) is a ventilator, which is able to perform flow-controlled ventilation (FCV). Moreover it provides direct tracheal pressure measurements and combined with the constant gas flow of FCV a precise determination of dynamic compliance is feasible. Thus not only PEEP but also peak pressure can be titrated based on dynamic compliance. Additionally intratracheal pressure-volume loops can be measured and thus power dissipation calculated, which represents the primary outcome parameter of this trial.

Timeline

Start date
2024-01-31
Primary completion
2025-04-30
Completion
2025-05-30
First posted
2024-01-24
Last updated
2024-03-12

Locations

1 site across 1 country: Austria

Source: ClinicalTrials.gov record NCT06222463. Inclusion in this directory is not an endorsement.