Nasal High Flow (NHF) and CPAP are established forms of respiratory support in neonates and often produce similar clinical outcomes. It has been shown in adults that NHF produce different effects on ventilation during wakefulness and sleep. There is no physiological data on effects of NHF in neonates. The physiological effects may be impacted by sleep/awake status.
The aim of the study to investigate the effects of NHF therapy on ventilation and gas exchange during wakefulness and sleep in healthy term newborns. Interventions: NHF will be applied at 8 L/min (AIRVO 2) via (OPT 316) Optiflow nasal cannula interface without supplemental oxygen. Participants will act as their own control (no intervention) in a randomized crossover study design. Physiological measurements: 1. Ventilation will be assessed using Respiratory Inductance Plethysmography (RIP) (Respitrace QDC, Viasys, USA). 2. Blood carbon dioxide (CO2) and oxygen levels will be measured by a non-invasive transcutaneous monitor (Tosca, Radiometer, Demnark). 3. All experiment will be recorded using Analogue-to-Digital converter (Powerlab, ADInstruments, New Zealand) and LabChart software with video recording of the patient. 4. Sleep/awake statuss will be determined by videorecording of the patient and Electroencephalogram (EEG) (Alice Polysomnography System Philips, USA) 5. The total study time will be \<3 hours in total for each participant. Routine measurement of heart rate, respiratory rate and oxygen saturation will be performed as per standard neonatal clinical practice. 6. Intervention can be terminated if at any time SpO2 drops below 80%, TcCO2 increases above 60 mm Hg, Respiratory Rate increases above 80 breaths per min for more than one minute). The researcher is an experienced neonatal consultant will be conducting the research and observing the baby throughout the study. Protocol: Both control and NHF intervention periods will last a maximum of 40 min each. The maximum duration of the study including set-up, calibration, intervention, washout ans control will be \<3 hours. At the beginning of the study when all probes are attached a self-calibration period of RIP will be followed by a calibration of breathing volume with a pneumotachometer attached to a nasal mask. After all calibrations are completed a baseline measurement will be followed by either NHF 8 L/min or a control period without NHF. At the end of this period the interventions will be changes either to control or NHF, which will follow by a washout period (no NHF) and an additional calibration of RIP with a pneumotachometer.
Study Type
INTERVENTIONAL
Allocation
RANDOMIZED
Purpose
TREATMENT
Masking
NONE
Enrollment
20
Nasal High Flow Therapy
Neonatal Intensive Care Unit, Research Centre of Maternal and Child Health
Yerevan, Armenia
Change of minute ventilation
Change of minute ventilation measured with calibrated Respiratory Inductance Plethysmography
Time frame: Up to 1 hour
Change of respiratory rate
Change of respiratory rate measured with Respiratory Inductance Plethysmography
Time frame: Up to 1 hour
Tissue carbon dioxide
Change of transcutaneous tissue carbon dioxide
Time frame: Up to 1 hour
Tissue oxygen
Change of transcutaneous oxygen
Time frame: Up to 1 hour
Oxygen saturation
SpO2
Time frame: Up to 1 hour
Heart rate
Heart rate measured with pulseoximeter
Time frame: Up to 1 hour
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