What every intensivist should know about using high-flow nasal oxygen for critically ill patients

Dres, Martin; Demoule, Alexandre

doi:10.5935/0103-507X.20170060

Introduction

The most conventional forms of oxygen delivery rely on facemasks, a nasal cannula or nasal prongs. However, the use of these methods is limited by certain drawbacks, including the need for a flow of oxygen higher than 15L/min in case of severe hypoxemia or the dilution of administered oxygen by entrained room air in cases of high inspiratory flow. An alternative to conventional oxygen therapy has received growing attention: heated, humidified, high flow nasal oxygen (HFNO), a technique that can deliver heated and humidified oxygen, with a controlled fraction of inspired oxygen (FiO₂), at a maximum flow rate of 60L/min via a nasal cannula. For a decade, the use of HFNO has been considered for patients with hypoxemic de novo acute respiratory failure (ARF). Recent reports suggest that HFNO can also be used to secure intubation and to prevent post-extubation ARF. The purpose of the present review is to provide clinicians with the most recent information on HFNO and to discuss its benefits and risks in its most common indications.

How does high flow nasal oxygen work?

In physiological terms, HFNO improves the fraction of inspired oxygen, washes and reduces dead space, generates positive end-expiratory pressure (PEEP) and provides more comfort than cold and dry oxygen.

Patients with ARF have high inspiratory flow rates ranging between 30 and 120L/min. This flow commonly exceeds the maximum 15L/min flow rate that usual devices deliver. Subsequently, entrained room air dilutes the oxygen, which in turn decreases the FiO₂. By delivering up to 100% oxygen at a maximum flow rate of 60L/min, HFNO minimizes the entrainment of room air and subsequently increases the FiO₂.

A high rate of airflow delivered directly to the naso-pharynx improves carbon dioxide clearance by flushing the expired carbon dioxide from the upper airway.⁽¹1 Dysart K, Miller TL, Wolfson MR, Shaffer TH. Research in high flow therapy: mechanisms of action. Respir Med. 2009;103(10):1400-5.⁾ Subsequently, the dead space attributable to the flush out volume is reduced, thereby improving alveolar ventilation.⁽²2 Fraser JF, Spooner AJ, Dunster KR, Anstey CM, Corley A. Nasal high flow oxygen therapy in patients with COPD reduces respiratory rate and tissue carbon dioxide while increasing tidal and end-expiratory lung volumes: a randomised crossover trial. Thorax. 2016;71(8):759-61.⁾ The reduction of dead space contributes to the observed decrease in both the respiratory rate and the work of breathing.⁽³3 Roca O, Riera J, Torres F, Masclans JR. High-flow oxygen therapy in acute respiratory failure. Respir Care. 2010;55(4):408-13.⁾

High flow nasal oxygen generates a varying PEEP level.⁽⁴4 Parke R, McGuinness S, Eccleston M. Nasal high-flow therapy delivers low level positive airway pressure. Br J Anaesth. 2009;103(6):886-90.

5 Parke RL, Eccleston ML, McGuinness SP. The effects of flow on airway pressure during nasal high-flow oxygen therapy. Respir Care. 2011;56(8):1151-5.^-⁶6 Groves N, Tobin A. High flow nasal oxygen generates positive airway pressure in adult volunteers. Aust Crit Care. 2007;20(4):126-31.⁾ In healthy volunteers treated with HFNO with a closed mouth and a flow rate of 60L/min, the measured PEEP was as high as 7cmH₂O.⁽⁶6 Groves N, Tobin A. High flow nasal oxygen generates positive airway pressure in adult volunteers. Aust Crit Care. 2007;20(4):126-31.⁾ However, this level of PEEP can decrease easily, as soon as the mouth is opened. Each 10L/min increase in flow rate increases the mean airway pressure by 0.69cmH₂O when subjects breathe with their mouths closed, and by 0.35cmH₂O when they breathe with their mouths open.⁽⁵5 Parke RL, Eccleston ML, McGuinness SP. The effects of flow on airway pressure during nasal high-flow oxygen therapy. Respir Care. 2011;56(8):1151-5.⁾

Furthermore, HFNO delivers a heated and humidified flow, providing more comfort than dry air.⁽⁷7 Cuquemelle E, Pham T, Papon JF, Louis B, Danin PE, Brochard L. Heated and humidified high-flow oxygen therapy reduces discomfort during hypoxemic respiratory failure. Respir Care. 2012;57(10):1571-7.⁾ HFNO also increases the water content of mucus, which facilitates secretion removal and avoids desiccation and epithelial injury. Finally, compared to other devices such as non-invasive ventilation (NIV), the tolerance of HFNO may be higher due to its interface, as simple nasal prongs enable patients to speak, eat and drink.

What benefits can we expect from high flow nasal oxygen?

The expected benefits of HFNO depend on its indication and the device to which HFNO is compared (Table 1). To date, the use of HFNO has been suggested in several indications, but few have been rigorously evaluated (Table 2). The two primary indications in terms of level of evidence are (1) to prevent intubation in patients with hypoxemic de novo ARF and (2) to prevent post extubation ARF and subsequent reintubation in the medical ICU or after surgery. Other important indications in which HFNO has been investigated but which lack clear evidence of clinical benefits are preoxygenation before the intubation of severely hypoxemic patients, de novo hypoxemic ARF in immunocompromised hosts and oxygenation to secure flexible bronchoscopy.

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Table 1
When high flow nasal oxygen can and cannot be used

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Table 2
Studies investigating high flow nasal oxygen in various intensive care unit settings

In hypoxemic acute respiratory failure, high flow nasal oxygen may produce a lower intubation rate than standard oxygen and non-invasive ventilation in the most severely hypoxemic patients

The largest known study on HFNO in patients with hypoxemic ARF was recently conducted by Frat et al.⁽⁸8 Frat JP, Thille AW, Mercat A, Girault C, Ragot S, Perbet S, Prat G, Boulain T, Morawiec E, Cottereau A, Devaquet J, Nseir S, Razazi K, Mira JP, Argaud L, Chakarian JC, Ricard JD, Wittebole X, Chevalier S, Herbland A, Fartoukh M, Constantin JM, Tonnelier JM, Pierrot M, Mathonnet A, Béduneau G, Delétage-Métreau C, Richard JC, Brochard L, Robert R; FLORALI Study Group; REVA Network. High-flow oxygen through nasal cannula in acute hypoxemic respiratory failure. N Engl J Med. 2015;372(23):2185-96.⁾ This randomized controlled trial included patients with hypoxemic ARF and a ratio of partial pressure of arterial oxygen to the fraction of inspired oxygen (PaO₂/FiO₂) of 300mmHg or less, mainly due to pneumonia. Patients were assigned to receive HFNO, standard oxygen therapy delivered through a facemask, or NIV. The primary outcome was the rate of endotracheal intubation, which was similar among the three groups (38% in HFNO versus 47% in conventional oxygen therapy and 50% in NIV). However, in a post hoc analysis restricted to patients with severe initial hypoxemia defined by a PaO₂/FiO₂ ≤ 200mmHg, the intubation rate was significantly lower in patients who received high flow oxygen than in the other two groups. Furthermore, mortality, which was a secondary outcome, was significantly lower in the HFNO group than in the other two groups. Although these results are promising, they need to be confirmed by further trials before the systematic use of HFNO in patients with ARF and severe hypoxemia can be recommended.

High flow nasal oxygen is a promising approach to prevent reintubation, but it should be used carefully in high-risk patients

Post extubation is a hazardous period for ICU patients and ARF after planned extubation is associated with remarkably high mortality.⁽⁹9 Thille AW, Harrois A, Schortgen F, Brun-Buisson C, Brochard L. Outcomes of extubation failure in medical intensive care unit patients. Crit Care Med. 2011;39(12):2612-8.⁾ In this setting, ARF is related to many factors such as excessive secretions, progressive exhaustion, respiratory muscle weakness, aspiration or fluid overload. A first open label trial comparing HFNO to the use of a Venturi mask for 48 hours postextubation in patients with hypoxemia, but not ARF, led to reports of greater comfort, fewer desaturations, better interface tolerance and a lower reintubation rate with HFNO.⁽¹⁰10 Maggiore SM, Idone FA, Vaschetto R, Festa R, Cataldo A, Antonicelli F, et al. Nasal high-flow versus Venturi mask oxygen therapy after extubation. Effects on oxygenation, comfort, and clinical outcome. Am J Respir Crit Care Med. 2014;190(3):282-8.⁾ In low-risk patients, HFNO applied for 24 hours postextubation compared to a Venturi mask was associated with a significant reduction in the need for reintubation.⁽¹¹11 Hernández G, Vaquero C, González P, Subira C, Frutos-Vivar F, Rialp G, et al. Effect of postextubation high-flow nasal cannula vs conventional oxygen therapy on reintubation in low-risk patients: a randomized clinical trial. JAMA. 2016;315(13):1354-61.⁾ In high-risk patients, HFNO compared to NIV was not inferior to NIV to prevent reintubation and post extubation ARF.⁽¹²12 Hernández G, Vaquero C, Colinas L, Cuena R, González P, Canabal A, et al. Effect of postextubation high-flow nasal cannula vs noninvasive ventilation on reintubation and postextubation respiratory failure in high-risk patients: a randomized clinical trial. JAMA. 2016;316(15):1565-74.⁾

High flow nasal oxygen is a valuable alternative to non-invasive ventilation to prevent acute respiratory failure in the post-surgical setting

Hypoxemia frequently occurs soon after major surgery,⁽¹³13 Arozullah AM, Daley J, Henderson WG, Khuri SF. Multifactorial risk index for predicting postoperative respiratory failure in men after major noncardiac surgery. The National Veterans Administration Surgical Quality Improvement Program. Ann Surg. 2000;232(2):242-53.^,¹⁴14 Lawrence VA, Dhanda R, Hilsenbeck SG, Page CP. Risk of pulmonary complications after elective abdominal surgery. Chest. 1996;110(3):744-50.⁾ and expiratory complications are the second most frequent complications after surgery.⁽¹⁵15 Serpa Neto A, Hemmes SNT, Barbas CS, Beiderlinden M, Fernandez-Bustamante A, Futier E, Hollmann MW, Jaber S, Kozian A, Licker M, Lin WQ, Moine P, Scavonetto F, Schilling T, Selmo G, Severgnini P, Sprung J, Treschan T, Unzueta C1, Weingarten TN, Wolthuis EK, Wrigge H, Gama de Abreu M, Pelosi P, Schultz MJ; PROVE Network investigators. Incidence of mortality and morbidity related to postoperative lung injury in patients who have undergone abdominal or thoracic surgery: a systematic review and meta-analysis. Lancet Respir Med. 2014;2(12):1007-15.⁾ In patients undergoing cardiothoracic surgery, NIV has been shown to prevent postoperative ARF. A multicenter randomized controlled trial has compared HFNO to NIV to treat post-extubation ARF or to prevent the occurrence of ARF in patients deemed at-risk.⁽¹⁶16 Stéphan F, Barrucand B, Petit P, Rézaiguia-Delclaux S, Médard A, Delannoy B, Cosserant B, Flicoteaux G, Imbert A, Pilorge C, Bérard L; BiPOP Study Group. High-flow nasal oxygen vs noninvasive positive airway pressure in hypoxemic patients after cardiothoracic surgery: a randomized clinical trial. JAMA. 2015;313(23):2331-9.⁾ High flow nasal oxygen was not inferior to NIV, with a similar rate of treatment success. ICU mortality was similar in the two groups. A second large randomized controlled trial compared HFNO to standard oxygen in patients undergoing major elective abdominal surgery and deemed at moderate to high risk of postoperative pulmonary complications.⁽¹⁷17 Futier E, Paugam-Burtz C, Godet T, Khoy-Ear L, Rozencwajg S, Delay JM, Verzilli D, Dupuis J, Chanques G, Bazin JE, Constantin JM1, Pereira B, Jaber S; OPERA study investigators. Effect of early postextubation high-flow nasal cannula vs conventional oxygen therapy on hypoxaemia in patients after major abdominal surgery: a French multicentre randomised controlled trial (OPERA). Intensive Care Med. 2016;42(12):1888-98.⁾ The occurrence of postoperative hypoxemia one hour after extubation, of pulmonary complications and the length of hospital stays were similar between the two groups.

The benefit of HFNO in the postoperative setting is not unequivocal. Future studies should aim to identify the subset of patients who are the best candidates to benefit from HFNO.

Other settings in which high flow nasal oxygen could be beneficial but require further investigation

High flow nasal oxygen has been proposed as an alternative to NIV to prevent intubation in hypoxemic de novo ARF in immunocompromised patients. To date, two post hoc analyses of large multicenter randomized controlled trials have been released, with conflicting results.⁽¹⁸18 Lemiale V, Mokart D, Mayaux J, Lambert J, Rabbat A, Demoule A, et al. The effects of a 2-h trial of high-flow oxygen by nasal cannula versus Venturi mask in immunocompromised patients with hypoxemic acute respiratory failure: a multicenter randomized trial. Crit Care. 2015;19:380.^,¹⁹19 Frat JP, J Ragot S, Girault C, Perbet S, Prat G, Boulain T, Demoule A, Ricard JD, Coudroy R, Robert R, Mercat A, Brochard L, Thille AW; REVA network. Effect of non-invasive oxygenation strategies in immunocompromised patients with severe acute respiratory failure: post hoc analysis of a randomized trial. Lancet Respir Med. 2016;4(8):646-52.⁾

High flow nasal oxygen has also been proposed as an alternative to NIV to prevent significant desaturation during endotracheal intubation in patients with severe hypoxemic ARF. Due to population heterogeneity, the results of these studies are conflicting,⁽²⁰20 Miguel-Montanes R, Hajage D, Messika J, Bertrand F, Gaudry S, Rafat C, et al. Use of high-flow nasal cannula oxygen therapy to prevent desaturation during tracheal intubation of intensive care patients with mild-to-moderate hypoxemia. Crit Care Med. 2015;43(3):574-83.

21 Vourc'h M, Asfar P, Volteau C, Bachoumas K, Clavieras N, Egreteau PY, et al. High-flow nasal cannula oxygen during endotracheal intubation in hypoxemic patients: a randomized controlled clinical trial. Intensive Care Med. 2015;41(9):1538-48.

22 Jaber S, Monnin M, Girard M, Conseil M, Cisse M, Carr J, et al. Apnoeic oxygenation via high-flow nasal cannula oxygen combined with non-invasive ventilation preoxygenation for intubation in hypoxaemic patients in the intensive care unit: the single-centre, blinded, randomised controlled OPTINIV trial. Intensive Care Med. 2016;42(12):1877-87.^-²³23 Semler MW, Janz DR, Lentz RJ, Matthews DT, Norman BC, Assad TR, Keriwala RD, Ferrell BA, Noto MJ, McKown AC, Kocurek EG, Warren MA, Huerta LE, Rice TW; FELLOW Investigators; Pragmatic Critical Care Research Group. Randomized trial of apneic oxygenation during endotracheal intubation of the critically ill. Am J Respir Crit Care Med. 2016;193(3):273-80.⁾ and additional studies targeting more homogeneous populations are needed.

Finally, HFNO may be useful for providing adequate oxygenation and comfort to end-of-life patients with do-not-intubate orders,⁽²⁴24 Peters SG, Holets SR, Gay PC. High-flow nasal cannula therapy in do-not-intubate patients with hypoxemic respiratory distress. Respir Care. 2013;58(4):597-600.⁾ but further studies are needed.

Which precautions should be taken when using high flow nasal oxygen?

Clinicians should be aware of the potential harmful effects of HFNO. First, HFNO can mask patient worsening and subsequently delay intubation, which may be harmful. As recently reported by an observational study in de novo ARF patients treated by HFNO, patients intubated after more than 48 hours of treatment had a higher mortality than those intubated within 48 hours.⁽²⁵25 Kang BJ, Koh Y, Lim CM, Huh JW, Baek S, Han M, et al. Failure of high-flow nasal cannula therapy may delay intubation and increase mortality. Intensive Care Med. 2015;41(4):623-32.⁾ In de novo hypoxemic ARF, HFNO preserves spontaneous breathing, permitting highly negative intrathoracic pressure. Therefore, HFNO can theoretically contribute to lung injury in patients breathing with high drive and large tidal volume.⁽²⁶26 Brochard L, Slutsky A, Pesenti A. Mechanical ventilation to minimize progression of lung injury in acute respiratory failure. Am J Respir Crit Care Med. 2017;195(4):438-42.⁾ As opposed to NIV, no monitoring of pressures or volume is available for patients breathing with HFNO.

Clinicians willing to use HFNO in ICU patients need to implement the technique cautiously, carefully, and progressively in their unit, as with any new therapy. Identifying the patients who are the most likely to benefit from HFNO is a challenge.

Conclusion

Over the past several years, a growing number of studies have suggested the potential benefit of HFNO in preventing intubation or reintubation in ICU patients who are either admitted for de novo acute respiratory failure or mechanically ventilated for surgery. Although HFNO appears to be a promising therapy in the ICU, additional studies are needed to define more precisely the subgroups of patients who are most likely to benefit from HFNO. Clinicians willing to use HFNO should know that HFNO might have deleterious effects, especially if it is not used adequately. As with any novel therapy, clinicians should learn how to use and implement HFNO progressively and cautiously.

Responsible editor: Jorge Ibrain Figueira Salluh

REFERÊNCIAS

¹
Dysart K, Miller TL, Wolfson MR, Shaffer TH. Research in high flow therapy: mechanisms of action. Respir Med. 2009;103(10):1400-5.
²
Fraser JF, Spooner AJ, Dunster KR, Anstey CM, Corley A. Nasal high flow oxygen therapy in patients with COPD reduces respiratory rate and tissue carbon dioxide while increasing tidal and end-expiratory lung volumes: a randomised crossover trial. Thorax. 2016;71(8):759-61.
³
Roca O, Riera J, Torres F, Masclans JR. High-flow oxygen therapy in acute respiratory failure. Respir Care. 2010;55(4):408-13.
⁴
Parke R, McGuinness S, Eccleston M. Nasal high-flow therapy delivers low level positive airway pressure. Br J Anaesth. 2009;103(6):886-90.
⁵
Parke RL, Eccleston ML, McGuinness SP. The effects of flow on airway pressure during nasal high-flow oxygen therapy. Respir Care. 2011;56(8):1151-5.
⁶
Groves N, Tobin A. High flow nasal oxygen generates positive airway pressure in adult volunteers. Aust Crit Care. 2007;20(4):126-31.
⁷
Cuquemelle E, Pham T, Papon JF, Louis B, Danin PE, Brochard L. Heated and humidified high-flow oxygen therapy reduces discomfort during hypoxemic respiratory failure. Respir Care. 2012;57(10):1571-7.
⁸
Frat JP, Thille AW, Mercat A, Girault C, Ragot S, Perbet S, Prat G, Boulain T, Morawiec E, Cottereau A, Devaquet J, Nseir S, Razazi K, Mira JP, Argaud L, Chakarian JC, Ricard JD, Wittebole X, Chevalier S, Herbland A, Fartoukh M, Constantin JM, Tonnelier JM, Pierrot M, Mathonnet A, Béduneau G, Delétage-Métreau C, Richard JC, Brochard L, Robert R; FLORALI Study Group; REVA Network. High-flow oxygen through nasal cannula in acute hypoxemic respiratory failure. N Engl J Med. 2015;372(23):2185-96.
⁹
Thille AW, Harrois A, Schortgen F, Brun-Buisson C, Brochard L. Outcomes of extubation failure in medical intensive care unit patients. Crit Care Med. 2011;39(12):2612-8.
¹⁰
Maggiore SM, Idone FA, Vaschetto R, Festa R, Cataldo A, Antonicelli F, et al. Nasal high-flow versus Venturi mask oxygen therapy after extubation. Effects on oxygenation, comfort, and clinical outcome. Am J Respir Crit Care Med. 2014;190(3):282-8.
¹¹
Hernández G, Vaquero C, González P, Subira C, Frutos-Vivar F, Rialp G, et al. Effect of postextubation high-flow nasal cannula vs conventional oxygen therapy on reintubation in low-risk patients: a randomized clinical trial. JAMA. 2016;315(13):1354-61.
¹²
Hernández G, Vaquero C, Colinas L, Cuena R, González P, Canabal A, et al. Effect of postextubation high-flow nasal cannula vs noninvasive ventilation on reintubation and postextubation respiratory failure in high-risk patients: a randomized clinical trial. JAMA. 2016;316(15):1565-74.
¹³
Arozullah AM, Daley J, Henderson WG, Khuri SF. Multifactorial risk index for predicting postoperative respiratory failure in men after major noncardiac surgery. The National Veterans Administration Surgical Quality Improvement Program. Ann Surg. 2000;232(2):242-53.
¹⁴
Lawrence VA, Dhanda R, Hilsenbeck SG, Page CP. Risk of pulmonary complications after elective abdominal surgery. Chest. 1996;110(3):744-50.
¹⁵
Serpa Neto A, Hemmes SNT, Barbas CS, Beiderlinden M, Fernandez-Bustamante A, Futier E, Hollmann MW, Jaber S, Kozian A, Licker M, Lin WQ, Moine P, Scavonetto F, Schilling T, Selmo G, Severgnini P, Sprung J, Treschan T, Unzueta C1, Weingarten TN, Wolthuis EK, Wrigge H, Gama de Abreu M, Pelosi P, Schultz MJ; PROVE Network investigators. Incidence of mortality and morbidity related to postoperative lung injury in patients who have undergone abdominal or thoracic surgery: a systematic review and meta-analysis. Lancet Respir Med. 2014;2(12):1007-15.
¹⁶
Stéphan F, Barrucand B, Petit P, Rézaiguia-Delclaux S, Médard A, Delannoy B, Cosserant B, Flicoteaux G, Imbert A, Pilorge C, Bérard L; BiPOP Study Group. High-flow nasal oxygen vs noninvasive positive airway pressure in hypoxemic patients after cardiothoracic surgery: a randomized clinical trial. JAMA. 2015;313(23):2331-9.
¹⁷
Futier E, Paugam-Burtz C, Godet T, Khoy-Ear L, Rozencwajg S, Delay JM, Verzilli D, Dupuis J, Chanques G, Bazin JE, Constantin JM1, Pereira B, Jaber S; OPERA study investigators. Effect of early postextubation high-flow nasal cannula vs conventional oxygen therapy on hypoxaemia in patients after major abdominal surgery: a French multicentre randomised controlled trial (OPERA). Intensive Care Med. 2016;42(12):1888-98.
¹⁸
Lemiale V, Mokart D, Mayaux J, Lambert J, Rabbat A, Demoule A, et al. The effects of a 2-h trial of high-flow oxygen by nasal cannula versus Venturi mask in immunocompromised patients with hypoxemic acute respiratory failure: a multicenter randomized trial. Crit Care. 2015;19:380.
¹⁹
Frat JP, J Ragot S, Girault C, Perbet S, Prat G, Boulain T, Demoule A, Ricard JD, Coudroy R, Robert R, Mercat A, Brochard L, Thille AW; REVA network. Effect of non-invasive oxygenation strategies in immunocompromised patients with severe acute respiratory failure: post hoc analysis of a randomized trial. Lancet Respir Med. 2016;4(8):646-52.
²⁰
Miguel-Montanes R, Hajage D, Messika J, Bertrand F, Gaudry S, Rafat C, et al. Use of high-flow nasal cannula oxygen therapy to prevent desaturation during tracheal intubation of intensive care patients with mild-to-moderate hypoxemia. Crit Care Med. 2015;43(3):574-83.
²¹
Vourc'h M, Asfar P, Volteau C, Bachoumas K, Clavieras N, Egreteau PY, et al. High-flow nasal cannula oxygen during endotracheal intubation in hypoxemic patients: a randomized controlled clinical trial. Intensive Care Med. 2015;41(9):1538-48.
²²
Jaber S, Monnin M, Girard M, Conseil M, Cisse M, Carr J, et al. Apnoeic oxygenation via high-flow nasal cannula oxygen combined with non-invasive ventilation preoxygenation for intubation in hypoxaemic patients in the intensive care unit: the single-centre, blinded, randomised controlled OPTINIV trial. Intensive Care Med. 2016;42(12):1877-87.
²³
Semler MW, Janz DR, Lentz RJ, Matthews DT, Norman BC, Assad TR, Keriwala RD, Ferrell BA, Noto MJ, McKown AC, Kocurek EG, Warren MA, Huerta LE, Rice TW; FELLOW Investigators; Pragmatic Critical Care Research Group. Randomized trial of apneic oxygenation during endotracheal intubation of the critically ill. Am J Respir Crit Care Med. 2016;193(3):273-80.
²⁴
Peters SG, Holets SR, Gay PC. High-flow nasal cannula therapy in do-not-intubate patients with hypoxemic respiratory distress. Respir Care. 2013;58(4):597-600.
²⁵
Kang BJ, Koh Y, Lim CM, Huh JW, Baek S, Han M, et al. Failure of high-flow nasal cannula therapy may delay intubation and increase mortality. Intensive Care Med. 2015;41(4):623-32.
²⁶
Brochard L, Slutsky A, Pesenti A. Mechanical ventilation to minimize progression of lung injury in acute respiratory failure. Am J Respir Crit Care Med. 2017;195(4):438-42.

Publication Dates

Publication in this collection
30 Nov 2017
Date of issue
Oct-Dec 2017

History

Received
03 Mar 2017
Accepted
27 Mar 2017

Este é um artigo publicado em acesso aberto (Open Access) sob a licença Creative Commons Attribution, que permite uso, distribuição e reprodução em qualquer meio, sem restrições desde que o trabalho original seja corretamente citado.

[1] Responsible editor: Jorge Ibrain Figueira Salluh

HFNO can be used with some benefits	Hypoxemic acute respiratory failure without extrapulmonary organ failure
	After extubation in low risk patients
	Patients with do-not-intubate orders
HFNO can be used without clear benefits	After extubation following cardiothoracic surgery
HFNO can be used without clear benefits	With flexible bronchoscopy
HFNO cannot be used	Hypoxemic ARF with criteria for intubation
HFNO cannot be used	Hypoxemic ARF with extrapulmonary organ failure
Settings where HFNO use requires further clarification	Acute exacerbation of COPD
	Immunocompromised patients with ARF
	Preoxygenation for the intubation of hypoxemic patients
	Post extubation in surgical patients

Studies	Design	Patients	HFNO was compared to	Primary endpoint	Results
Hypoxemic ARF
Frat et al.⁽⁸8 Frat JP, Thille AW, Mercat A, Girault C, Ragot S, Perbet S, Prat G, Boulain T, Morawiec E, Cottereau A, Devaquet J, Nseir S, Razazi K, Mira JP, Argaud L, Chakarian JC, Ricard JD, Wittebole X, Chevalier S, Herbland A, Fartoukh M, Constantin JM, Tonnelier JM, Pierrot M, Mathonnet A, Béduneau G, Delétage-Métreau C, Richard JC, Brochard L, Robert R; FLORALI Study Group; REVA Network. High-flow oxygen through nasal cannula in acute hypoxemic respiratory failure. N Engl J Med. 2015;372(23):2185-96.⁾	RCT	310 Medical ICU	NIV and standard oxygen	Intubation	Similar but lower rates in the subgroup of patients with a PaO₂/FiO₂ < 200mmHg.
Post-surgery
Stéphan et al.⁽¹⁶16 Stéphan F, Barrucand B, Petit P, Rézaiguia-Delclaux S, Médard A, Delannoy B, Cosserant B, Flicoteaux G, Imbert A, Pilorge C, Bérard L; BiPOP Study Group. High-flow nasal oxygen vs noninvasive positive airway pressure in hypoxemic patients after cardiothoracic surgery: a randomized clinical trial. JAMA. 2015;313(23):2331-9.⁾	RCT	830 cardiothoracic surgery	Post-extubation NIV	Treatment failure	Non-inferiority
Futier et al.⁽¹⁷17 Futier E, Paugam-Burtz C, Godet T, Khoy-Ear L, Rozencwajg S, Delay JM, Verzilli D, Dupuis J, Chanques G, Bazin JE, Constantin JM1, Pereira B, Jaber S; OPERA study investigators. Effect of early postextubation high-flow nasal cannula vs conventional oxygen therapy on hypoxaemia in patients after major abdominal surgery: a French multicentre randomised controlled trial (OPERA). Intensive Care Med. 2016;42(12):1888-98.⁾	RCT	220 major abdominal surgery	Standard oxygen	Hypoxemia	No difference
Pre-intubation
Miguel-Montanes et al.⁽²⁰20 Miguel-Montanes R, Hajage D, Messika J, Bertrand F, Gaudry S, Rafat C, et al. Use of high-flow nasal cannula oxygen therapy to prevent desaturation during tracheal intubation of intensive care patients with mild-to-moderate hypoxemia. Crit Care Med. 2015;43(3):574-83.⁾	Before-After	101 medical ICU	Bag reservoir facemask	Lowest SpO₂ during intubation	High SpO₂ with HFNO
Semler et al.⁽²³23 Semler MW, Janz DR, Lentz RJ, Matthews DT, Norman BC, Assad TR, Keriwala RD, Ferrell BA, Noto MJ, McKown AC, Kocurek EG, Warren MA, Huerta LE, Rice TW; FELLOW Investigators; Pragmatic Critical Care Research Group. Randomized trial of apneic oxygenation during endotracheal intubation of the critically ill. Am J Respir Crit Care Med. 2016;193(3):273-80.⁾	Open label	150 medical ICU	Usual care	Lowest SpO₂ during intubation	No difference
Vourc’h et al.⁽²¹21 Vourc'h M, Asfar P, Volteau C, Bachoumas K, Clavieras N, Egreteau PY, et al. High-flow nasal cannula oxygen during endotracheal intubation in hypoxemic patients: a randomized controlled clinical trial. Intensive Care Med. 2015;41(9):1538-48.⁾	RCT	124 medical ICU	Oxygen facial mask	Lowest SpO₂ during intubation	No difference
Jaber et al.⁽²²22 Jaber S, Monnin M, Girard M, Conseil M, Cisse M, Carr J, et al. Apnoeic oxygenation via high-flow nasal cannula oxygen combined with non-invasive ventilation preoxygenation for intubation in hypoxaemic patients in the intensive care unit: the single-centre, blinded, randomised controlled OPTINIV trial. Intensive Care Med. 2016;42(12):1877-87.⁾	RCT	49 medical ICU	HFNO + NIV versus NIV alone	Lowest SpO₂during intubation	Higher SpO₂ with HFNO + NIV
Post-extubation
Maggiore et al.⁽¹⁰10 Maggiore SM, Idone FA, Vaschetto R, Festa R, Cataldo A, Antonicelli F, et al. Nasal high-flow versus Venturi mask oxygen therapy after extubation. Effects on oxygenation, comfort, and clinical outcome. Am J Respir Crit Care Med. 2014;190(3):282-8.⁾	RCT	105 medical ICU	Venturi mask	PaO₂/FiO₂ ratio	Higher with HFNO
Hernández et al.⁽¹¹11 Hernández G, Vaquero C, González P, Subira C, Frutos-Vivar F, Rialp G, et al. Effect of postextubation high-flow nasal cannula vs conventional oxygen therapy on reintubation in low-risk patients: a randomized clinical trial. JAMA. 2016;315(13):1354-61.⁾	RCT	527 low risk of post-extubation ARF medical ICU	Venturi mask	Reintubation	Lower with HFNO
Hernández et al.⁽¹²12 Hernández G, Vaquero C, Colinas L, Cuena R, González P, Canabal A, et al. Effect of postextubation high-flow nasal cannula vs noninvasive ventilation on reintubation and postextubation respiratory failure in high-risk patients: a randomized clinical trial. JAMA. 2016;316(15):1565-74.⁾	RCT	604 medical ICU with low risk of post-extubation ARF	NIV	Reintubation	No difference
Immunocompromised
Lemiale et al.⁽¹⁸18 Lemiale V, Mokart D, Mayaux J, Lambert J, Rabbat A, Demoule A, et al. The effects of a 2-h trial of high-flow oxygen by nasal cannula versus Venturi mask in immunocompromised patients with hypoxemic acute respiratory failure: a multicenter randomized trial. Crit Care. 2015;19:380.⁾	RCT	100 medical ICU	Standard oxygen	Need for NIV and/or intubation	No difference
Frat et al.⁽¹⁹19 Frat JP, J Ragot S, Girault C, Perbet S, Prat G, Boulain T, Demoule A, Ricard JD, Coudroy R, Robert R, Mercat A, Brochard L, Thille AW; REVA network. Effect of non-invasive oxygenation strategies in immunocompromised patients with severe acute respiratory failure: post hoc analysis of a randomized trial. Lancet Respir Med. 2016;4(8):646-52.⁾	RCT	82 medical ICU	NIV and standard oxygen	Intubation rate	Lower with HFNO

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