2014
New Generation Neonatal High Frequency Ventilators: Effect of Oscillatory Frequency and Working Principles on Performance
Grazioli S, Karam O, Rimensberger PC. New Generation Neonatal High Frequency Ventilators: Effect of Oscillatory Frequency and Working Principles on Performance. Respiratory Care 2014, 60: 363-370. PMID: 25406342, DOI: 10.4187/respcare.03048.Peer-Reviewed Original ResearchMeSH KeywordsEquipment DesignHigh-Frequency VentilationHumansInfant, NewbornIntensive Care Units, NeonatalPressureRespiratory Distress Syndrome, NewbornRespiratory MechanicsTechnology Assessment, BiomedicalTidal VolumeVentilators, MechanicalConceptsVolume-targeted modesInfant's conditionNeonatal ventilatorsPre-term infantsRespiratory system conditionsHigh-frequency ventilationExpiratory tidal volumeLung mechanical propertiesTerm infantsPreclinical dataVentilator settingsFrequency ventilationClinical conditionsLung characteristicsTidal volumeClinical relevanceInfant settingsVentilatorFurther studies
2007
Noise levels during nCPAP are flow-dependent but not device-dependent
Karam O, Donatiello C, Van Lancker E, Chritin V, Pfister RE, Rimensberger PC. Noise levels during nCPAP are flow-dependent but not device-dependent. Archives Of Disease In Childhood Fetal & Neonatal 2007, 93: f132. PMID: 18089628, DOI: 10.1136/adc.2007.129098.Peer-Reviewed Original ResearchMeSH KeywordsContinuous Positive Airway PressureFemaleHearing Loss, Noise-InducedHumansInfant, NewbornInfant, PrematureIntensive Care, NeonatalMaleNoisePregnancyRespiratory Distress Syndrome, NewbornVentilators, MechanicalConceptsNasal continuous positive airway pressureCare unitContinuous positive airway pressurePediatric critical care unitNeonatal intensive care unitOutcomes of infantsPositive airway pressureRespiratory distress syndromeIntensive care unitCritical care unitsAirway pressureDistress syndromeMechanical ventilationPremature infantsNeonatal careNoxious exposuresOral cavityOccupational limitsInfantsLevelsSyndromeCare