Respective Effects of Helmet Pressure Support, Continuous Positive Airway Pressure, and Nasal High-Flow in Hypoxemic Respiratory Failure: A Randomized Crossover Clinical Trial

Luca Salvatore Menga; Luca Delle Cese; Tommaso Rosà; Melania Cesarano; Roberta Scarascia; Teresa Michi; Daniele Guerino Biasucci; Ersilia Ruggiero; Antonio Maria Dell'Anna; Salvatore Lucio Cutuli; Eloisa S. Tanzarella; Gabriele Pintaudi; Gennaro De Pascale; Claudio Sandroni; Salvatore Maurizio Maggiore; Domenico Luca Grieco; Massimo Antonelli

doi:10.1164/rccm.202204-0629OC

Respective Effects of Helmet Pressure Support, Continuous Positive Airway Pressure, and Nasal High-Flow in Hypoxemic Respiratory Failure: A Randomized Crossover Clinical Trial

Luca Salvatore Menga, Luca Delle Cese, Tommaso Rosà, Melania Cesarano, Roberta Scarascia, Teresa Michi, Daniele Guerino Biasucci, Ersilia Ruggiero, Antonio Maria Dell'Anna, Salvatore Lucio Cutuli, Eloisa S. Tanzarella, Gabriele Pintaudi, Gennaro De Pascale, Claudio Sandroni, Salvatore Maurizio Maggiore, Domenico Luca Grieco^*, Massimo Antonelli

^*Autore corrispondente per questo lavoro

Gabriele d'Annunzio University

Risultato della ricerca: Contributo in rivista › Articolo in rivista

Abstract

Rationale: The respective effects of positive end-expiratory pressure (PEEP) and pressure support delivered through the helmet interface in patients with hypoxemia need to be better understood. Objectives: To assess the respective effects of helmet pressure support (noninvasive ventilation [NIV]) and continuous positive airway pressure (CPAP) compared with high-flow nasal oxygen (HFNO) on effort to breathe, lung inflation, and gas exchange in patients with hypoxemia (PaO2/FiO2 ⩽ 200). Methods: Fifteen patients underwent 1-hour phases (constant FiO2) of HFNO (60 L/min), helmet NIV (PEEP = 14 cm H2O, pressure support = 12 cm H2O), and CPAP (PEEP = 14 cm H2O) in randomized sequence. Measurements and Main Results: Inspiratory esophageal (ΔPES) and transpulmonary pressure (ΔPL) swings were used as surrogates for inspiratory effort and lung distension, respectively. Tidal Volume (Vt) and end-expiratory lung volume were assessed with electrical impedance tomography. ΔPES was lower during NIV versus CPAP and HFNO (median [interquartile range], 5 [3-9] cm H2O vs. 13 [10-19] cm H2O vs. 10 [8-13] cm H2O; P = 0.001 and P = 0.01). ΔPL was not statistically different between treatments. PaO2/FiO2 ratio was significantly higher during NIV and CPAP versus HFNO (166 [136-215] and 175 [158-281] vs. 120 [107-149]; P = 0.002 and P = 0.001). NIV and CPAP similarly increased Vt versus HFNO (mean change, 70% [95% confidence interval (CI), 17-122%], P = 0.02; 93% [95% CI, 30-155%], P = 0.002) and end-expiratory lung volume (mean change, 198% [95% CI, 67-330%], P = 0.001; 263% [95% CI, 121-407%], P = 0.001), mostly due to increased aeration/ventilation in dorsal lung regions. During HFNO, 14 of 15 patients had pendelluft involving >10% of Vt; pendelluft was mitigated by CPAP and further by NIV. Conclusions: Compared with HFNO, helmet NIV, but not CPAP, reduced ΔPES. CPAP and NIV similarly increased oxygenation, end-expiratory lung volume, and Vt, without affecting ΔPL. NIV, and to a lesser extent CPAP, mitigated pendelluft. Clinical trial registered with clinicaltrials.gov (NCT04241861).

Lingua originale	English
pagine (da-a)	1310-1323
Numero di pagine	14
Rivista	American Journal of Respiratory and Critical Care Medicine
Volume	207
DOI	https://doi.org/10.1164/rccm.202204-0629OC
Stato di pubblicazione	Pubblicato - 2023

Keywords

acute hypoxemic respiratory failure
acute respiratory distress syndrome
helmet support
noninvasive ventilation

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10.1164/rccm.202204-0629OC

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Menga, L. S., Delle Cese, L., Rosà, T., Cesarano, M., Scarascia, R., Michi, T., Biasucci, D. G., Ruggiero, E., Dell'Anna, A. M., Cutuli, S. L., Tanzarella, E. S., Pintaudi, G., De Pascale, G., Sandroni, C., Maggiore, S. M., Grieco, D. L., & Antonelli, M. (2023). Respective Effects of Helmet Pressure Support, Continuous Positive Airway Pressure, and Nasal High-Flow in Hypoxemic Respiratory Failure: A Randomized Crossover Clinical Trial. American Journal of Respiratory and Critical Care Medicine, 207, 1310-1323. https://doi.org/10.1164/rccm.202204-0629OC

@article{fd6236c89304410895a47fac75cdb00b,

title = "Respective Effects of Helmet Pressure Support, Continuous Positive Airway Pressure, and Nasal High-Flow in Hypoxemic Respiratory Failure: A Randomized Crossover Clinical Trial",

abstract = "Rationale: The respective effects of positive end-expiratory pressure (PEEP) and pressure support delivered through the helmet interface in patients with hypoxemia need to be better understood. Objectives: To assess the respective effects of helmet pressure support (noninvasive ventilation [NIV]) and continuous positive airway pressure (CPAP) compared with high-flow nasal oxygen (HFNO) on effort to breathe, lung inflation, and gas exchange in patients with hypoxemia (PaO2/FiO2 ⩽ 200). Methods: Fifteen patients underwent 1-hour phases (constant FiO2) of HFNO (60 L/min), helmet NIV (PEEP = 14 cm H2O, pressure support = 12 cm H2O), and CPAP (PEEP = 14 cm H2O) in randomized sequence. Measurements and Main Results: Inspiratory esophageal (ΔPES) and transpulmonary pressure (ΔPL) swings were used as surrogates for inspiratory effort and lung distension, respectively. Tidal Volume (Vt) and end-expiratory lung volume were assessed with electrical impedance tomography. ΔPES was lower during NIV versus CPAP and HFNO (median [interquartile range], 5 [3-9] cm H2O vs. 13 [10-19] cm H2O vs. 10 [8-13] cm H2O; P = 0.001 and P = 0.01). ΔPL was not statistically different between treatments. PaO2/FiO2 ratio was significantly higher during NIV and CPAP versus HFNO (166 [136-215] and 175 [158-281] vs. 120 [107-149]; P = 0.002 and P = 0.001). NIV and CPAP similarly increased Vt versus HFNO (mean change, 70% [95% confidence interval (CI), 17-122%], P = 0.02; 93% [95% CI, 30-155%], P = 0.002) and end-expiratory lung volume (mean change, 198% [95% CI, 67-330%], P = 0.001; 263% [95% CI, 121-407%], P = 0.001), mostly due to increased aeration/ventilation in dorsal lung regions. During HFNO, 14 of 15 patients had pendelluft involving >10% of Vt; pendelluft was mitigated by CPAP and further by NIV. Conclusions: Compared with HFNO, helmet NIV, but not CPAP, reduced ΔPES. CPAP and NIV similarly increased oxygenation, end-expiratory lung volume, and Vt, without affecting ΔPL. NIV, and to a lesser extent CPAP, mitigated pendelluft. Clinical trial registered with clinicaltrials.gov (NCT04241861).",

keywords = "acute hypoxemic respiratory failure, acute respiratory distress syndrome, helmet support, noninvasive ventilation, acute hypoxemic respiratory failure, acute respiratory distress syndrome, helmet support, noninvasive ventilation",

author = "Menga, {Luca Salvatore} and {Delle Cese}, Luca and Tommaso Ros{\`a} and Melania Cesarano and Roberta Scarascia and Teresa Michi and Biasucci, {Daniele Guerino} and Ersilia Ruggiero and Dell'Anna, {Antonio Maria} and Cutuli, {Salvatore Lucio} and Tanzarella, {Eloisa S.} and Gabriele Pintaudi and {De Pascale}, Gennaro and Claudio Sandroni and Maggiore, {Salvatore Maurizio} and Grieco, {Domenico Luca} and Massimo Antonelli",

year = "2023",

doi = "10.1164/rccm.202204-0629OC",

language = "English",

volume = "207",

pages = "1310--1323",

journal = "American Journal of Respiratory and Critical Care Medicine",

issn = "1535-4970",

publisher = "American Thoracic Society",

}

Menga, LS, Delle Cese, L, Rosà, T, Cesarano, M, Scarascia, R, Michi, T, Biasucci, DG, Ruggiero, E, Dell'Anna, AM, Cutuli, SL, Tanzarella, ES, Pintaudi, G, De Pascale, G , Sandroni, C, Maggiore, SM, Grieco, DL & Antonelli, M 2023, 'Respective Effects of Helmet Pressure Support, Continuous Positive Airway Pressure, and Nasal High-Flow in Hypoxemic Respiratory Failure: A Randomized Crossover Clinical Trial', American Journal of Respiratory and Critical Care Medicine, vol. 207, pagg. 1310-1323. https://doi.org/10.1164/rccm.202204-0629OC

Respective Effects of Helmet Pressure Support, Continuous Positive Airway Pressure, and Nasal High-Flow in Hypoxemic Respiratory Failure: A Randomized Crossover Clinical Trial. / Menga, Luca Salvatore; Delle Cese, Luca; Rosà, Tommaso et al.
In: American Journal of Respiratory and Critical Care Medicine, Vol. 207, 2023, pag. 1310-1323.

Risultato della ricerca: Contributo in rivista › Articolo in rivista

TY - JOUR

T1 - Respective Effects of Helmet Pressure Support, Continuous Positive Airway Pressure, and Nasal High-Flow in Hypoxemic Respiratory Failure: A Randomized Crossover Clinical Trial

AU - Menga, Luca Salvatore

AU - Delle Cese, Luca

AU - Rosà, Tommaso

AU - Cesarano, Melania

AU - Scarascia, Roberta

AU - Michi, Teresa

AU - Biasucci, Daniele Guerino

AU - Ruggiero, Ersilia

AU - Dell'Anna, Antonio Maria

AU - Cutuli, Salvatore Lucio

AU - Tanzarella, Eloisa S.

AU - Pintaudi, Gabriele

AU - De Pascale, Gennaro

AU - Sandroni, Claudio

AU - Maggiore, Salvatore Maurizio

AU - Grieco, Domenico Luca

AU - Antonelli, Massimo

PY - 2023

Y1 - 2023

N2 - Rationale: The respective effects of positive end-expiratory pressure (PEEP) and pressure support delivered through the helmet interface in patients with hypoxemia need to be better understood. Objectives: To assess the respective effects of helmet pressure support (noninvasive ventilation [NIV]) and continuous positive airway pressure (CPAP) compared with high-flow nasal oxygen (HFNO) on effort to breathe, lung inflation, and gas exchange in patients with hypoxemia (PaO2/FiO2 ⩽ 200). Methods: Fifteen patients underwent 1-hour phases (constant FiO2) of HFNO (60 L/min), helmet NIV (PEEP = 14 cm H2O, pressure support = 12 cm H2O), and CPAP (PEEP = 14 cm H2O) in randomized sequence. Measurements and Main Results: Inspiratory esophageal (ΔPES) and transpulmonary pressure (ΔPL) swings were used as surrogates for inspiratory effort and lung distension, respectively. Tidal Volume (Vt) and end-expiratory lung volume were assessed with electrical impedance tomography. ΔPES was lower during NIV versus CPAP and HFNO (median [interquartile range], 5 [3-9] cm H2O vs. 13 [10-19] cm H2O vs. 10 [8-13] cm H2O; P = 0.001 and P = 0.01). ΔPL was not statistically different between treatments. PaO2/FiO2 ratio was significantly higher during NIV and CPAP versus HFNO (166 [136-215] and 175 [158-281] vs. 120 [107-149]; P = 0.002 and P = 0.001). NIV and CPAP similarly increased Vt versus HFNO (mean change, 70% [95% confidence interval (CI), 17-122%], P = 0.02; 93% [95% CI, 30-155%], P = 0.002) and end-expiratory lung volume (mean change, 198% [95% CI, 67-330%], P = 0.001; 263% [95% CI, 121-407%], P = 0.001), mostly due to increased aeration/ventilation in dorsal lung regions. During HFNO, 14 of 15 patients had pendelluft involving >10% of Vt; pendelluft was mitigated by CPAP and further by NIV. Conclusions: Compared with HFNO, helmet NIV, but not CPAP, reduced ΔPES. CPAP and NIV similarly increased oxygenation, end-expiratory lung volume, and Vt, without affecting ΔPL. NIV, and to a lesser extent CPAP, mitigated pendelluft. Clinical trial registered with clinicaltrials.gov (NCT04241861).

AB - Rationale: The respective effects of positive end-expiratory pressure (PEEP) and pressure support delivered through the helmet interface in patients with hypoxemia need to be better understood. Objectives: To assess the respective effects of helmet pressure support (noninvasive ventilation [NIV]) and continuous positive airway pressure (CPAP) compared with high-flow nasal oxygen (HFNO) on effort to breathe, lung inflation, and gas exchange in patients with hypoxemia (PaO2/FiO2 ⩽ 200). Methods: Fifteen patients underwent 1-hour phases (constant FiO2) of HFNO (60 L/min), helmet NIV (PEEP = 14 cm H2O, pressure support = 12 cm H2O), and CPAP (PEEP = 14 cm H2O) in randomized sequence. Measurements and Main Results: Inspiratory esophageal (ΔPES) and transpulmonary pressure (ΔPL) swings were used as surrogates for inspiratory effort and lung distension, respectively. Tidal Volume (Vt) and end-expiratory lung volume were assessed with electrical impedance tomography. ΔPES was lower during NIV versus CPAP and HFNO (median [interquartile range], 5 [3-9] cm H2O vs. 13 [10-19] cm H2O vs. 10 [8-13] cm H2O; P = 0.001 and P = 0.01). ΔPL was not statistically different between treatments. PaO2/FiO2 ratio was significantly higher during NIV and CPAP versus HFNO (166 [136-215] and 175 [158-281] vs. 120 [107-149]; P = 0.002 and P = 0.001). NIV and CPAP similarly increased Vt versus HFNO (mean change, 70% [95% confidence interval (CI), 17-122%], P = 0.02; 93% [95% CI, 30-155%], P = 0.002) and end-expiratory lung volume (mean change, 198% [95% CI, 67-330%], P = 0.001; 263% [95% CI, 121-407%], P = 0.001), mostly due to increased aeration/ventilation in dorsal lung regions. During HFNO, 14 of 15 patients had pendelluft involving >10% of Vt; pendelluft was mitigated by CPAP and further by NIV. Conclusions: Compared with HFNO, helmet NIV, but not CPAP, reduced ΔPES. CPAP and NIV similarly increased oxygenation, end-expiratory lung volume, and Vt, without affecting ΔPL. NIV, and to a lesser extent CPAP, mitigated pendelluft. Clinical trial registered with clinicaltrials.gov (NCT04241861).

KW - acute hypoxemic respiratory failure

KW - acute respiratory distress syndrome

KW - helmet support

KW - noninvasive ventilation

KW - acute hypoxemic respiratory failure

KW - acute respiratory distress syndrome

KW - helmet support

KW - noninvasive ventilation

UR - http://hdl.handle.net/10807/271238

U2 - 10.1164/rccm.202204-0629OC

DO - 10.1164/rccm.202204-0629OC

M3 - Article

SN - 1535-4970

VL - 207

SP - 1310

EP - 1323

JO - American Journal of Respiratory and Critical Care Medicine

JF - American Journal of Respiratory and Critical Care Medicine

ER -

Respective Effects of Helmet Pressure Support, Continuous Positive Airway Pressure, and Nasal High-Flow in Hypoxemic Respiratory Failure: A Randomized Crossover Clinical Trial

Abstract

Keywords

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