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Time to Lung Volume Stability After Pressure Change During High-Frequency Oscillatory Ventilation

David G. Tingay, Nicholas Kiraly, John F. Mills, Peter A. Dargaville

2021Critical Care Explorations13 citationsDOIOpen Access PDF

Abstract

OBJECTIVES: Clinicians have little guidance on the time needed before assessing the effect of a mean airway pressure change during high-frequency oscillatory ventilation. We aimed to determine: 1) time to stable lung volume after a mean airway pressure change during high-frequency oscillatory ventilation and 2) the relationship between time to volume stability and the volume state of the lung. DESIGN: Prospective observational study. SETTING: Regional quaternary teaching hospital neonatal ICU. PATIENTS: Thirteen term or near-term infants receiving high-frequency oscillatory ventilation and muscle relaxants. INTERVENTIONS: One to two cm H 2 O mean airway pressure changes every 10 minutes as part of an open lung strategy based on oxygen response. MEASUREMENTS AND MAIN RESULTS: Continuous lung volume measurements (respiratory inductive plethysmography) were made during the mean airway pressure changes. Volume signals were analyzed with a biexponential model to calculate the time to stable lung volume if the model R 2 was greater than 0.6. If volume stability did not occur within 10 minutes, the model was extrapolated to maximum 3,600 s. One-hundred ninety-six mean airway pressure changes were made, with no volume change in 33 occurrences (17%). One-hundred twenty-five volume signals met modeling criteria for inclusion; median (interquartile range) R 2 , 0.96 (0.91–0.98). The time to stable lung volume was 1,131 seconds (718–1,959 s) (mean airway pressure increases) and 647 seconds (439–1,309 s) (mean airway pressure decreases), with only 17 (14%) occurring within 10 minutes and time to stability being longer when the lung was atelectatic. CONCLUSIONS: During high-frequency oscillatory ventilation, the time to stable lung volume after a mean airway pressure change is variable, often requires more than 10 minutes, and is dependent on the preceding volume state.

Topics & Concepts

Mean airway pressureLung volumesMedicineAnesthesiaInterquartile rangePlethysmographVentilation (architecture)Tidal volumeHigh-frequency ventilationVolume (thermodynamics)AirwayLungMechanical ventilationRespiratory systemCardiologyInternal medicinePhysicsThermodynamicsQuantum mechanicsRespiratory Support and MechanismsNeonatal Respiratory Health ResearchNosocomial Infections in ICU
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