Resuscitation
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Multicenter Study
Time used for ventilation in two-rescuer CPR with a bag-valve-mask device during out-of-hospital cardiac arrest.
Professional rescuers only deliver chest compressions 39% of the available time before intubation during out-of-hospital cardiac arrest. In manikin-studies lay rescuers need approximately 15s to deliver two ventilations. It is not known how much time professional rescuers use for two ventilations and we hypothesised that the time used for two ventilations with a bag-valve-mask device before tracheal intubation is longer than recommended and that the extended time contributes to the high no flow time. ⋯ Professional rescuers delivered two bag-valve-mask ventilations within the 5-6s as indicated in the 2000 Guidelines, slightly longer than the 3-4s recommended in the 2005 Guidelines. However, only half the pauses were used for two ventilations, and the total time for two ventilations accounted for only 27% of the time without chest compressions. Excessive time for ventilation cannot explain the high no-flow time during CPR by professional rescuers before intubation.
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Multicenter Study
Cardiac arrest patients rarely receive chest compressions before ambulance arrival despite the availability of pre-arrival CPR instructions.
To determine the proportion of out-of-hospital cardiac arrest (OOHCA) patients who received chest compressions, before EMS arrival, from bystanders who called the EMS emergency telephone number (9-1-1) at dispatch centers that provided telephone CPR instructions and to describe barriers to following instructions. ⋯ Few 9-1-1 callers provided chest compressions following telephone CPR instructions that included airway and breathing steps. The majority of callers were unwilling or emotionally or physically unable to follow the instructions.
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Good quality basic life support (BLS) improves outcome during cardiac arrest. As fatigue may reduce BLS performance over time we wanted to examine the quality of chest compressions in a single-rescuer scenario during prolonged BLS with different compression:ventilation ratios (C:V ratios). ⋯ Increasing the C:V ratio increases the number of chest compressions during 10 min of BLS. Compression depth and compression rate were within guideline recommendations for all three ratios. We found no decline in chest compression quality below guideline recommendations during 10 min of BLS with any of the three different C:V ratios.
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Several studies using a variety of assessment approaches have demonstrated that young doctors possess insufficient resuscitation competence. The aims of this study were to assess newly graduated doctors' resuscitation competence against an internationally recognised standard and to study whether teaching site affects their resuscitation competence. ⋯ Newly graduated doctors do not have sufficient competence in managing cardiopulmonary arrests according to the current guidelines published by ERC. There were significant differences in ALS-competence between sites. Change in teaching and assessment practice in undergraduate emergency medicine courses is needed in order to increase the level of ALS-competence of newly graduated doctors.
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Ventilation with tidal volumes sufficient to raise the victim's chest is an integral part of guidelines for lay-rescuer basic life support, but optimal tidal volume, frequency and ratio to chest compressions are not known. ⋯ Ventilation during basic life support performed according to international guidelines (2000) resulted in arterial hypercapnia and hypoxia.