The purpose of this study is to investigate the quality of cardio-pulmonary resuscitation(CPR) delivered by EMS professionals and whether this quality can be improved by implementing real-time feedback during the event and an oral post-event debriefing procedure based on the actual event performance data.
The aim of this study is to investigate whether CPR quality can be improved by implementing real-time feedback and immediate oral structured post-event debriefing in out-of-hospital cardiac arrest (OHCA). The objectives of this study is to assess the current quality of CPR delivered by emergency medical services (EMS) during OHCA events in the Capital Region of Denmark. Furthermore, to investigate if CPR quality can be improved by applying real-time feedback during OHCA resuscitation attempts and to investigate if structured oral post-event debriefing delivered immediately after a resuscitation attempt and based on data from the defibrillator can further improve CPR quality The hypothesis of this study is that adding real-time and post event feedback can improve the compression rate, compression depth, overall CPR hands-on time (CPR fraction), and recoil with at least 15% in total for both interventions. Using a prospective study design data is retrieved from the standard defibrillator (ZOLL X series) through ZOLL RescueNet® Case Review (software for post-event review, analysis, and debriefing) from ZOLL Medical Corporation, Massachusetts, United States of America. The study consists of three consecutive phases. Phase one with no feedback / debriefing available for EMS. Phase two with real-time feedback during the event and phase three which adds post-event debriefing to real-time feedback. We expect to be able to include at least 500 cases in each phase.
Study Type
OBSERVATIONAL
Enrollment
2,989
Real-time feedback on chest compression depth, chest compression rate and recoil available to EMS while performing CPR. Feedback is delivered as visual text, numeric and graphical presentations on the defibrillator with audio tones for rate.
Structured oral post-event debriefing based on objective performance data from the resuscitation attempt. The debriefing is conducted as hot/immediate self-directed debriefing session with a maximum length of 10 minutes.
Copenhagen EMS
Ballerup Municipality, Denmark
Chest compression depth
Chest compression depth is defined as the maximum posterior deflection of the sternum prior to chest recoil. Measured in centimeters and as percentage of compressions within the recommended 5 to 6 cm
Time frame: During cardiopulmonary resuscitation performed by emergency medical services, up to 4 hours
Return of spontaneous circulation (ROSC)
The return of a spontaneous pulse prior to handover at hospital measured as events
Time frame: During cardiopulmonary resuscitation performed by emergency medical services, up to 4 hours
Sustained return of spontaneous circulation (ROSC)
The return of a spontaneous pulse at hospital handover measured as events
Time frame: During cardiopulmonary resuscitation performed by emergency medical services, up to 4 hours
30- day survival
Patient alive at day 30 from event
Time frame: 30 days from event
Chest compression rate
Chest compression rate is defined as the frequency of chest compressions during compression series. Measured in number compressions per minute (cpm) and percentage of delivered compressions within the recommended rate of 100-120 cpm
Time frame: During cardiopulmonary resuscitation performed by emergency medical services, up to 4 hours
Chest compression fraction
Chest compression fraction is defined as the time with chest compressions starting from the first therapeutic event to the end of the episode. An episode is the time without presence of a spontaneous patient pulse. Measured in percentage.
Time frame: During cardiopulmonary resuscitation performed by emergency medical services, up to 4 hours
This platform is for informational purposes only and does not constitute medical advice. Always consult a qualified healthcare professional.