The purpose of this study is to assess the Non-Invasive Ventilation-Continuous Positive Airway Pressure efficacy (experimental group) for drowning related Acute Respiratory Failure compared to Oxygen Supply by face mask (15Liters/minutes) (control group).
Open-label, multicenter, prospective, cross-over cluster randomized (ratio 1:1), conducted in 16 Emergency Medical Service centers in France : * Experimental group: Non-Invasive Ventilation-Continuous Positive Airway Pressure (Arm 1) * Control group: Oxygen Supply by face mask (Arm 2) Drowning-related acute respiratory failure has important clinical consequences (4 to 18% mortality). No national/international medical consensus exist for its management. Our team has successively demonstrated that: * The acute respiratory failure related to drowning in salt or fresh water presented the same clinical pathway and prognosis ; * Most victims with drowning related acute respiratory failure do no present hemodynamic instability ; * If the oxygenation is rapidly improved, neurological status is also maintained in acute respiratory failure victims ; * Pediatric and adult presentations are similar. Facing an acute respiratory failure, emergency medical service must rapidly choose between oxygen supply by face mask (15 liters /minutes), mechanical ventilation or non-invasive ventilation. mechanical ventilation as non-invasive ventilation present interests and side arms. No comparative study has been conducted between these strategies. The arguments for non-invasive ventilation use specifically in a continuous positive airway pressure mode are: * Fast recovery of acute respiratory failure in 24h * Retrospective publications showing that the benefit of non-invasive ventilation probably based on continuous positive airway pressure mode * Easy implementation of continuous positive airway pressure in the pre-hospital setting (adults, children, newborns) * Complexity of mechanical ventilation in pre-hospital setting. Our working hypothesis is the efficacy of early use of non-invasive ventilation-continuous positive airway pressure in drowning related acute respiratory failure.
Study Type
INTERVENTIONAL
Allocation
RANDOMIZED
Purpose
TREATMENT
Masking
NONE
Enrollment
210
During the 4-month period of control, the care teams will: \- Use Oxygen Supply by face mask (15Liters/minutes) from pre-hospital to intensive care unit admission until the 6th hour following the start of drowning care (Emergency Medical Service arrival at the scene). Indeed, current concepts of advanced prehospital care include the use of oxygen by face mask (15Liters/minutes) and intubation-Mechanical Ventilation in case of failure. The requirement of intubation-Mechanical Ventilation by the Emergency Medical Service (pre-hospital phase) or Intensive Care Unit (hospital phase) practitioners during this first 6 hours period will be left to the discretion of the practitioners in charge of the patient; \- Continue this strategy in the Intensive Care Unit until the Acute Respiratory Failure resolution allows a reduction of Oxygen Supply. The Oxygen Supply will be reduced progressively litter by litter each 12 hours period with maintenance of capillary saturation up to 92%.
During the 4-month period of experimentation, the care teams will: \- Use Non-Invasive Ventilation by Continuous Positive Airway Pressure (set between 8 to 10 cm H2O) from pre-hospital setting to Intensive Care Unit admission until the 6th hour following the start of drowning care (Emergency Medical Service arrival at the scene). The requirement of Mechanical Ventilation by the Emergency Medical Service (pre-hospital phase) or Intensive Care Unit (hospital phase) practitioners during this first 6 hours period will be left to the discretion of the practitioners in charge of the patient. \- Continue this strategy in the Intensive Care Unit until the Acute Respiratory Failure resolution allows a reduction of Non-Invasive Ventilation-Continuous Positive Airway Pressure. Non-Invasive Ventilation-Continuous Positive Airway Pressure support will be weaned progressively (left at practitioners' convenience) with maintenance of capillary O2 saturation up to 92%.
Centre Hospitalier de la Côte Basque - Urgences
Bayonne, France
RECRUITINGGroupe Hospitalier PELLEGRIN - SAMU-SMUR
Bordeaux, France
RECRUITINGCH La Rochelle - Urgence
La Rochelle, France
Inability to improve oxygen saturation up than 92%
Indication of intubation/mechanical ventilation requirement in the first 6 hours based on following criteria : Inability to improve oxygen saturation up than 92% despite the ventilatory strategy used;
Time frame: 6 hours
Glasgow Coma Scale
Indication of intubation/mechanical ventilation requirement in the first 6 hours based on following criteria : Glasgow Coma Scale \< 13
Time frame: 6 hours
Cardiac arrest occurrence
Indication of intubation/mechanical ventilation requirement in the first 6 hours based on following criteria : Cardiac arrest occurrence
Time frame: 6 hours
Systolic arterial pressure
Indication of intubation/mechanical ventilation requirement in the first 6 hours based on following criteria : Systolic arterial pressure \< 90 mmHg
Time frame: 6 hours
Aspiration
Indication of intubation/mechanical ventilation requirement in the first 6 hours based on following criteria : Aspiration
Time frame: 6 hours
This platform is for informational purposes only and does not constitute medical advice. Always consult a qualified healthcare professional.
Centre Hospitalier Côte de Lumière - SAMU/SMUR 85
Les Sables-d'Olonne, France
RECRUITINGCHU Timone - APHM
Marseille, France
NOT_YET_RECRUITINGCHU de Montpellier - Hôpital Lapeyronie
Montpellier, France
RECRUITINGCHU de Nantes - Urgences/SAMU
Nantes, France
RECRUITINGCHU Nice Hôpital Pasteur
Nice, France
RECRUITINGCHITS Hôpital Ste Musse
Toulon, France
RECRUITING