Abstract
The optimal airway management strategy during cardiopulmonary resuscitation is uncertain. In the case of out-of-hospital cardiac arrest, a high chest compression fraction is paramount to obtain the return of spontaneous circulation and improve survival and neurological outcomes. To improve this fraction, providing continuous chest compressions should be more effective than using the conventional 30:2 ratio. Airway management should, however, be adapted, since face-mask ventilation can hardly be carried out while continuous compressions are administered. The early insertion of a supraglottic device could therefore improve the chest compression fraction by allowing ventilation while maintaining compressions. This is a protocol for a multicenter, parallel, randomized simulation study. Depending on randomization, each team made up of paramedics and emergency medical technicians will manage the 10-min scenario according either to the standard approach (30 compressions with two face-mask ventilations) or to the experimental approach (continuous manual compressions with early insertion of an i-gel® supraglottic device to deliver asynchronous ventilations). The primary outcome will be the chest compression fraction during the first two minutes of cardiopulmonary resuscitation. Secondary outcomes will be chest compression fraction (per cycle and overall), compressions and ventilations quality, time to first shock and to first ventilation, user satisfaction, and providers’ self-assessed cognitive load.
Highlights
The primary aim of this study is to determine whether the immediate insertion of an i-gel® while providing continuous chest compressions followed by asynchronous ventilations can increase the chest compression fraction (CCF) compared to the 30 compressions/two ventilations standard approach in a simulated model of outof-hospital cardiac arrest (OHCA) after a short teaching intervention
The Consolidated Standards of Reporting Trials (CONSORT) flow chart of the trial is displayed in Figure 1 and the Standard Protocol Items: Recommendations for Interventional Trials (SPIRIT) Figure describing the timeline is displayed in Table 1, as recommended [35,36]
We developed an experimental approach which consists, when starting cardiopulmonary resuscitation (CPR) in an OHCA, of delivering no prior face mask ventilation (FMV), but instead directly placing an i-gel® device while the second team member performs continuous chest compression from the beginning of resuscitation manoeuvres
Summary
The latest European Resuscitation Council (ERC) recommendations emphasize the importance of applying the highest possible quality of chest compressions with minimal interruption [2], and the American Heart Association (AHA) recommendations state that the CCF should be equal to at least 60%, and ideally exceed 80% [1]. Continuous compressions are associated with a higher rate of good neurological outcomes compared to a 30:2 regimen [3,4]. Human clinical trials have shown that maintaining a high CCF is linked to a higher rate of return of spontaneous circulation (ROSC), survival, and favourable neurological outcomes both in shockable and non-shockable rhythms [5,6,7,8,9,10,11]. Christenson et al found that a 10% increase in CCF is approximately equal to an 11% increase in survival [8]
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