Physiologic effect of high-flow nasal cannula in infants with bronchiolitis

Abstract

Objective: To assess the effect of delivering high-flow nasal cannula flow on end-expiratory lung volume, continuous distending pressure, and regional ventilation distribution in infants less than 12 months old with bronchiolitis.

Design: Prospective observational clinical study.

Setting: Nineteen bed medical and surgical PICU.

Patients: Thirteen infants with bronchiolitis on high-flow nasal therapy.

Interventions: The study infants were measured on a flow rate applied at 2 and 8 L/min through the high-flow nasal cannula system.

Measurements and results: Ventilation distribution was measured with regional electrical impedance amplitudes and end-expiratory lung volume using electrical impedance tomography. Changes in continuous distending pressure were measured from the esophagus via the nasogastric tube. Physiological variables were also recorded. High-flow nasal cannula delivered at 8 L/min resulted in significant increases in global and anterior end-expiratory lung volume (p < 0.01) and improvements in the physiological variables of respiratory rate, SpO2, and FIO2 when compared with flows of 2 L/min.

Conclusion: In infants with bronchiolitis, high-flow nasal cannula oxygen/air delivered at 8 L/min resulted in increases in end-expiratory lung volume and improved respiratory rate, FIO2, and SpO2.