Asymmetrical nasal high flow ventilation improves clearance of CO<sub>2</sub> from the anatomical dead space and increases positive airway pressure
Stanislav Tatkov, Monique Rees, Anton Gulley, Lotte G. T. van den Heuij, Georg Nilius
Abstract
The asymmetrical interface generated reverse flow in the nasal cavities and across the choana, which led to unidirectional purging of expired gas from the upper airways. This accelerated the clearance of anatomical dead space and reduced re-breathing while increased resistance to flow resulted in higher positive end-expiratory pressure (PEEP). These findings are relevant to patients with elevated respiratory rates or with expiratory flow limitations where dead-space clearance by NHF can be substantially reduced.
Topics & Concepts
Dead spaceVentilation (architecture)AirwayMedicineAnesthesiaFlow (mathematics)RespirationRespiratory systemAnatomyCardiologyMechanicsPhysicsThermodynamicsRespiratory Support and MechanismsAirway Management and Intubation TechniquesNeonatal Respiratory Health Research