Pediatric nasal
high flow therapy
Nasal high flow (NHF) is a mode of noninvasive respiratory support that delivers high flows of blended air and oxygen through a nasal interface.
1
View:
flow rate settings
Optiflow™ Junior 2
A non-sealing nasal interface specifically designed for the flow requirements and anatomical features of infants and children on NHF therapy.
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How does NHF therapy work?
NHF is a flow-based therapy designed to be an open system that typically consists of a flow source to blend air and oxygen, a humidifier to heat and humidify the gas mixture, and a circuit and interface to deliver humidified gas to the patient. Suitable sizing of the nasal cannula is important to ensure the open system is maintained.
NHF is associated with a range of mechanisms of action and physiological benefits:
•
Ensures washout of anatomical dead space.
2-4
•
Provides dynamic positive airway pressure.
2-5
•
Delivers heated and humidified gas.
6-9
•
Provides supplemental oxygen.
10-12
•
Improves patient comfort.
13-16
Provides dynamic positive airway pressure
With NHF, flow is prescribed and set. A level of dynamic positive airway pressure is generated because of the flow, which is dependent on a range of factors such as the weight of the infant, the set flow rate and nare occlusion.
2,4
It is important the nasal cannula does not create a seal in the nares so NHF is maintained as an open system.
The dynamic positive airway pressure associated with NHF has been shown to reduce inspiratory effort and the work of breathing compared with standard oxygen therapy.
2,4,5
Adapted from Milési et. al., 2013, the animated graph we feature here shows how positive pressure during inspiration reduces the inspiratory work of breathing.
Delivers heated and humidified gas
NHF delivers a heated and humidified blend of air and oxygen, maintaining the nasal mucosa and enhancing mucociliary function.
6
It reduces mucosal dryness and improves secretion clearance compared with standard oxygen therapy.
7
Consensus guidelines state that NHF should always be adequately heated and humidified.
8,9
Learn more about humidity
Provides supplemental oxygen
NHF differs from standard oxygen therapy in that it can accurately deliver a prescribed FiO
2
when the set flow rate meets or exceeds a patient’s peak inspiratory demand.
10,11
FiO
2
is the proportion of oxygen in the air that is inspired.
11
In addition to the ability to deliver accurate FiO
2
, the combined mechanisms of NHF have the effect of improving oxygenation status.
10-12
Compared with standard oxygen therapy, NHF can accurately deliver a prescribed FiO
2
when set flow meets or exceeds the patient's peak inspiratory demand.
Improves patient comfort
Because NHF is an open system, it is gentle on the patient’s nose.
Compared with continuous positive airway pressure (CPAP), NHF improves patient comfort, compliance and tolerance to therapy.
13,14
NHF is also associated with a significant reduction in the rate of nasal trauma.
15,16
Clinical NHF studies have used objective measures, such as heart rate, facial expressions, and movement, to assess patient comfort.
14
Updated March 2023
Optiflow
Flow Matters
Early use of NHF in infants and children
In our pediatric edition of
Optiflow™ Flow Matters
, we review the literature and provide an evidence-based approach to the implementation of NHF in pediatric patients.
Read online
Download PDF
Setting flow rates for infants and children
Clinical evidence supports a dose-by-weight approach with suggested flow rates of about 2 liters per kilogram per minute (L/kg/min) for infants between 3.0 and 12.5 kilograms.
4,7-12
Weight
Flow rate
Flows
Up to 12 kg
2 L/kg/min
Up to 12 kg
2 L/kg/min for infants up to 12 kg in weight has been shown to produce rapid improvement in reducing respiratory distress, and a reduced need for the escalation of therapy.
Over 12 kg
Flow rates for those over 12 kg in weight have been protocolized by the PARIS research group.
4
13 – 15 kg
25 – 30 L/min
16 – 30 kg
35 L/min
31 – 50 kg
40 L/min
> 50 kg
50 L/min
The Queensland Children's Hospital NHF Documentary Series
The Queensland Children's Hospital (formerly Lady Cilento Children's Hospital) in Australia, shares its successful implementation of NHF therapy for infants and children.
NHF therapy in practice in a children's hospital
Explore how the Queensland Children's Hospital uses NHF therapy across the hospital.
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The F&P Education Hub – your go-to resource for humidified therapies
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.
de Klerk, A. Humidified high-flow nasal cannula: is it the new and improved CPAP?
Adv. Neonatal Care
8
, 98–106 (2008).
View abstract
.
Dysart, K., Miller, T. L., Wolfson, M. R., & Shaffer, T. H. Research in high-flow therapy: mechanisms of action.
Respir. Med.
103
, 1400–5 (2009).
View abstract
.
Maram KP, Chakraborty M. High-flow ventilation in newborn infants – what is the evidence? Paediatrics and Child Health. 2017 Jan; 27(1):1–8.
Liew Z et al. Physiological effects of high-flow nasal cannula therapy in preterm infants. Arch Dis Child – Fetal Neonatal Ed. 2020; 105, 87–93.
View abstract.
Mazmanyan P, Darakchyan M, Pinkham MI, Tatkov S. Mechanisms of nasal high-flow therapy in newborns. J Appl Physiol. 2002 Apr 1;128(4): 822–829.
View abstract
.
ten Brink F, Duke T and Evans J. High-flow nasal prong oxygen therapy or nasopharyngeal continuous positive airway pressure for children with moderate-to-severe respiratory distress? Pediatr Crit Care Med. 14, 2013, e326–331.
View abstract
.
Woodhead DD, Lambert DK, Clark JM and Christensen RD. Comparing two methods of delivering high-flow gas therapy by nasal cannula following endotracheal extubation: a prospective, randomized, masked, crossover trial. J Perinatol. 26, 2006, 481–485.
View abstract.
Yoder BA, Manley B, Collins C, Ives K, Kugelman A, Lavizzari A et al. Consensus approach to nasal high-flow therapy in neonates. Journal of Perinatology. 2017 Jul 23; 37(7):809–813.
View abstract
.
Roehr CC, Yoder BA, Davis PG, Ives K. Evidence Support and Guidelines for Using Heated, Humidified, High-Flow Nasal Cannulae in Neonatology. Clinics in Perinatology. 2016 Dec; 43(4):693–705.
View abstract
.
Hough J, Pham T, and Schibler A. Physiologic effect of high-flow nasal cannula in infants with bronchiolitis. Pediatr Crit Care Med. 15, 2014, e214–219.
View abstract
.
Sinha I, McBride A, Smith R, and Fernandes R. CPAP and High-Flow Nasal Cannula Oxygen in Bronchiolitis. Chest 148, 2015, 810–823.
View abstract.
Lee M. and Nagler J. High-flow nasal cannula therapy beyond the perinatal period. Curr Opin Pediatr. 29, 2017, 291–296.
View abstract.
Collins CL, Barfield C, Horne RSC and Davis PG. A comparison of nasal trauma in preterm infants extubated to either heated humidified high-flow nasal cannulae or nasal continuous positive airway pressure. Eur J Pediatr. 173, 2014, 181–186.
View abstract.
Roberts C. et al. Nasal high-flow therapy for primary respiratory support in preterm infants. N Engl J Med. 375, 2016, 1142–1151.
View abstract.
Yoder B. et al. Heated, humidified high-flow nasal cannula versus nasal CPAP for respiratory support in neonates. Pediatrics 131, 2013, e1482–1490.
View abstract.
Wilkinson D, Andersen C, O’Donnell CPF, De Paoli AG and Manley BJ. High-flow nasal cannula for respiratory support in preterm infants. Cochrane Database Syst Rev. 2, CD006405, 2016.
View abstract.
Bruet S, Butin M, Dutheil F. Systematic review of high-flow nasal cannula versus continuous positive airway pressure for primary support in preterm infants. Archives of Disease in Childhood – Fetal and Neonatal Edition. 2022 Jan; 107(1):56–59.
View abstract.
View references
F&P and Optiflow are trademarks of Fisher & Paykel Healthcare Limited. For patent information, see
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