The aim of this unblinded parallel-group randomized multicenter clinical trial is to compare the clinical effectiveness of high flow nasal therapy (HFNT) with conventional oxygen therapy (COT) in patients with confirmed COVID-19 related acute hypoxemic respiratory failure.
The interventions will be delivered in any hospital ward caring for COVID-19 patients. The interventions under investigation will be high flow nasal therapy in comparison with conventional oxygen therapy. HFNT will be delivered by any device (standalone machine or ventilators able to deliver it). The initial flow rate will be set at 40 L/min and potentially increased up to 60 L/min, according to patient tolerance. Large-bore nasal prongs will be selected according to the size of patients' nostrils (i.e. 2/3 of the diameter of the patient's nostril). A surgical mask will be placed on top of the HFNT interface. The temperature will be set at 37°C or 34 °C according to the patient's comfort. The FiO2 will be adjusted to maintain SpO2 between 92-96%. A feeding tube or a nasogastric tube will not represent a contraindication for the use of HFNT provided the patency of the used nostril. Conventional Oxygen therapy will be delivered by any device or combination of devices used for delivering oxygen such as nasal cannula, Venturi Mask or Mask with or without a reservoir bag as per usual local practice. Oxygen flow will be titrated to achieve SpO2 between 92-96%. Co-interventions: Patients potentially eligible for the study will be evaluated by the attending physicians and receive medical therapy based on the attending physician's decision and local protocols. Awake proning is allowed. Local protocols, including drugs and awake proning, will be discussed with the enrolling centers at the initiation visit, and adherence to WHO guidelines will be recommended. Written informed consent from all the patients will be collected. Termination criteria \& protocol violation: Criteria for weaning off COT or HFNT was at clinical discretion of the managing physician based on the improvement in oxygenation with ability to maintain SpO2 of 96% or greater with less than 0.30 of FiO2 or P/F \> 300. The switch from COT to HFNT should be considered a protocol violation and should be based on clinical decision of the treating physician. Criteria to be considered for escalation of treatment: 1) SpO2 ≤ 92% despite COT or HFNT or P/F ≤ 180 with FiO2 ≥ 50%, and 2) at least one of the following: respiratory rate ≥ 28 breaths/min, severe dyspnea, signs of increased work of breathing (e.g. use of accessory muscles). If the patient meets these criteria, escalation of treatment CPAP, NIV or IMV will be considered. The choice of the type of escalating treatment will be a clinical decision of the treating physician.
Study Type
INTERVENTIONAL
Allocation
RANDOMIZED
Purpose
TREATMENT
Masking
NONE
Enrollment
364
High flow nasal therapy will be delivered by any device (standalone machine or ventilators able to deliver it). The initial flow rate will be set at 40 L/min and potentially increased up to 60 L/min, according to patient tolerance. Large-bore nasal prongs will be selected according to the size of patients' nostrils (i.e. 2/3 of the diameter of the patient's nostril). A surgical mask will be placed on top of the HFNT interface. The temperature will be set at 37°C or 34 °C according to the patient's comfort. The FiO2 will be adjusted to maintain SpO2 between 92-96%.
Conventional Oxygen therapy will be delivered by any device or combination of devices used for delivering oxygen such as nasal cannula, Venturi Mask or Mask with or without a reservoir bag as per usual local practice. Oxygen flow will be titrated to achieve SpO2 between 92-96%.
Proportion of patients needing escalation of treatment during hospital stay
Proportion of patients needing escalation of treatment (i.e. noninvasive ventilation - including CPAP - or intubation).
Time frame: 28 days
Proportion of patients needing intubation during hospital stay
Time frame: 28 days
Proportion of patients who receive CPAP during hospital stay
Proportion of patients who receive continuous positive airway pressure during hospital stay
Time frame: 28 days
Proportion of patients who receive NIV during hospital stay
Proportion of patients undergone noninvasive ventilation (e.g. BiLevel, PSV)
Time frame: 28 days
Proportion of patients admitted to intensive care unit during hospital stay
Time frame: 28 days
Proportion of patients who terminate the study protocols for improvement
Time frame: 28 days
Length of stay in hospital
Time frame: 28 days
Time to escalation of treatment to CPAP/NIV during hospital stay
Time frame: 28 days
Time to escalation of treatment to intubation/invasive ventilation during hospital stay
Time frame: 28 days
Length of stay in ICU
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Department of Anesthesiology, University of Thessaly, School of Health Sciences, Faculty of Medicine
Larissa, Greece
Department of Emergency Medicine, Faculty of Medicine, University of Thessaly
Larissa, Greece
UO di Pronto Soccorso e Medicina d'Urgenza Humanitas Research Hospital
Rozzano, Milano, Italy
U.O. di Medicina interna AULSS 7 Pedemontana
Bassano del Grappa, VI, Italy
Pulmonology and Respiratory Intensive Care Unit, S. Donato Hospital, Arezzo, Italy
Arezzo, Italy
Institute of Respiratory Disease, Department of Basic Medical Science, Neuroscience and Sense Organs, University of Bari
Bari, Italy
Ospedale di Carpi
Carpi, Italy
Respiratory Medicine Unit, "Policlinico-Vittorio Emanuele San Marco" University Hospital, Catania, Italy
Catania, Italy
UO di Medicina d'Urgenza AOU Policlinico Vittorio Emanuele San Marco di Catania
Catania, Italy
Respiratory Section, Department of Translational Medicine, University of Ferrara. AOU Ferrara Arcispedale S. Anna. U.O. Pneumologia
Ferrara, Italy
...and 17 more locations
Time frame: 28 day
Days free from CPAP/NIV during hospital stay
Time frame: 28 days
Ventilator-free days during hospital stay
Time frame: 28 days
Oxygen-free days during hospital stay
Time frame: 28 days
28-day mortality
Time frame: 28 days from hospital admission
60-day mortality
Time frame: 60 days from hospital admission
Hospital mortality
Time frame: 28 days
Treatment interruption due to intolerance during study treatment
Time frame: 28 days
Dyspnea score (BORG scale) during hospital stay
\[0= no dyspnea to 10= severe dyspnea\] - daily collection
Time frame: 28 days
National Early Warning Score 2 (NEWS2) during hospital stay
Daily collection of Six simple physiological parameters that form the basis of the scoring system: respiration rate, oxygen saturation, systolic blood pressure, pulse rate, level of consciousness or new confusion, temperature. A score is allocated to each parameter, with the magnitude of the score reflecting how extremely the parameter varies from the norm. The score is then aggregated and uplifted by 2 points for people requiring supplemental oxygen to maintain their recommended oxygen saturation. Range of values: 0 (best) - 23 (worst) points.
Time frame: 28 days
ROX index during hospital stay
SpO2/FiO2/Respiratory rate - daily collection
Time frame: 28 days