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Tundra lists 2 Lung Mechanics clinical trials. Each listing includes eligibility criteria, study locations, and direct links to research sites in the Tundra directory.
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NCT07486167
Influence of Lung Volume Optimization Maneuver on Cardiac Output and Lung Compliance in Ventilated Children With Congenital Heart Disease Undergoing Surgical Repair
The aim of this randomized interventional multi-center clinical trial is to determine whether a standardized lung volume optimization maneuver (LVOM), including PEEP titration, improves outcomes in children undergoing biventricular repair for congenital heart disease (CHD) with cardiopulmonary bypass. The primary hypothesis is that optimizing end-expiratory lung volume through a standardized PEEP titration maneuver improves cardiac performance and lung function. Secondary objectives are to evaluate whether this strategy reduces duration of mechanical ventilation, improves hemodynamics and ventilation-perfusion matching, and decreases the need for vasopressor support.
Gender: All
Ages: 0 Days - 18 Years
Updated: 2026-04-30
NCT07193719
Influence of Personalized Lung Volume Optimization Maneuver on Lung Function and Cardiac Performance in Children
The goal of this randomized interventional clinical trial is to learn if a standardized lung volume optimization maneuver (LVOM) is beneficial in 1. study) children undergoing biventricular repair of their congenital heart disease (CHD) with cardiopulmonary bypass and 2. study) in children with severe respiratory failure at risk for or need for ECMO. The main questions it aims to answer are: Main hypotheses of CHD study: Does a standardized PEEP-Titration maneuver, to optimize end-expiratory lung volume improve: * cardiac performance * lung function Does it make a difference in: * length of ventilation * ventilation/perfusion mismatch of the lung * need for vasopressor support? Main hypotheses of ECMO study: Does a LVOM in children/infants with severe respiratory failure /ARDS * improve lung compliance and gas exchange * facilitate lung protective ventilation according to PALICC-2 guidelines * improve lung aeration and V/Q-matching assessed with EIT Does it make a difference in * need for ECMO * duration of ECMO runs * hemodynamics stability
Gender: All
Ages: 0 Years - 18 Years
Updated: 2026-04-09