What is recommended to minimize interruptions in chest compressions when using an AED

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• 2022-01-21T01:50:04.000Z
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answered What is recommended to minimize interruptions in compressions when using an aed.

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Answer:

To minimize interruptions in chest compressions during CPR, continue CPR while the defibrillator is charging. Immediately after the shock, resume CPR, beginning with chest compressions. Give 2 minutes (about 5 cycles) of CPR.

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Editor’s note: This post marks the fourth in a series of posts outlining the evidence surrounding various aspects of CPR by Dr. Stu Netherton. Follow along as he covers Rate of Compression, Depth of Compression, Chest Wall Recoil, Minimizing Interruptions, and Avoiding Excessive Ventilation.

Part 4 – Minimizing interruptions in chest compressions

As providers we understand that the reason to perform chest compressions to artificially make the heart beat, delivering oxygen to and removing wastes from tissues. So it makes sense that the more time we are providing appropriate compressions, the more oxygen delivered to tissues in need. The updated 2015 guidelines remind us of this:

“In adult cardiac arrest, total preshock and postshock pauses in chest compressions should be as short as possible.”

While this wasn’t forgotten about in the 2010 guidelines – “Rescuers should attempt to minimize the frequency and duration of interruptions in compressions to maximize the number of compressions delivered per minute” – the recent guidelines are more specific about where the natural pauses in compressions are – the time around delivering a shock – and emphasize they need to be as short as possible.

Oxygen and substrate delivery to vital tissues is crucial to successful CPR, and thus adequate blood flow must be attained through chest compressions. ROSC is dependent on adequate myocardial oxygen delivery and blood flow during CPR,1,2 both of which are dependent on the coronary perfusion pressure (CPP).Maximal CPP is thus the physiologic goal of CPR, and this is maintained with maximally effective, uninterrupted chest compression. Interruptions in chest compressions have traditionally occurred during ventilation, pad placement, during pulse and rhythm checks and in the perishock phase.

The percentage of time a rescue team spends providing compressions is called the chest compression fraction (CCF). While the optimal goal of CCF hasn’t been identified, it makes intuitive sense that higher is better. Studies have identified a relationship between higher CCF and increased likelihood of survival of patients with shockable rhythms, and ROSC in patients with non-shockable rhythms. 3,4A target of 80% or greater is generally considered the CCF goal, which has been demonstrated to be an achievable one in a variety of settings.5

While some of the guidelines we’ve already talked about may have some uncertainty about the exact targets, which is also true with CCF, minimizing interruptions in chest compressions has clear benefit. It has been shown that for every 5 second increase in preshock pause, there is an 18% decrease in survival to discharge, and for every 5 second increase in postshock pause, a 14% decrease in survival to discharge.6 This publication showed the independent nature of the perishock pause on survival to discharge and shows the importance of minimizing the perishock pauses during CPR. This is supported by other publications which have shown an association between shorter perishock pauses and ROSC7, shock success8 and survival to discharge.9

The best way to minimize the perishock pause is through teamwork, communication and coordination. Ensure there is a line of people ready to perform compressions, and be clear when they should switch out. Charge the defibrillator before compressions stop and then time pulse and rhythm checks (with or without defibrillation as indicated) with CPR provider changes.

Uploaded by Amy Chung.

References

1.

Halperin H, Tsitlik J, Guerci A, et al. Determinants of blood flow to vital organs during cardiopulmonary resuscitation in dogs. Circulation. 1986;73(3):539-550. [PubMed]

2.

Michael J, Guerci A, Koehler R, et al. Mechanisms by which epinephrine augments cerebral and myocardial perfusion during cardiopulmonary resuscitation in dogs. Circulation. 1984;69(4):822-835. [PubMed]

3.

Christenson J, Andrusiek D, Everson-Stewart S, et al. Chest compression fraction determines survival in patients with out-of-hospital ventricular fibrillation. Circulation. 2009;120(13):1241-1247. [PubMed]

4.

Vaillancourt C, Everson-Stewart S, Christenson J, et al. The impact of increased chest compression fraction on return of spontaneous circulation for out-of-hospital cardiac arrest patients not in ventricular fibrillation. Resuscitation. 2011;82(12):1501-1507. [PubMed]

5.

Meaney P, Bobrow B, Mancini M, et al. Cardiopulmonary resuscitation quality: [corrected] improving cardiac resuscitation outcomes both inside and outside the hospital: a consensus statement from the American Heart Association. Circulation. 2013;128(4):417-435. [PubMed]

6.

Cheskes S, Schmicker R, Christenson J, et al. Perishock pause: an independent predictor of survival from out-of-hospital shockable cardiac arrest. Circulation. 2011;124(1):58-66. [PubMed]

7.

Sell R, Sarno R, Lawrence B, et al. Minimizing pre- and post-defibrillation pauses increases the likelihood of return of spontaneous circulation (ROSC). Resuscitation. 2010;81(7):822-825. [PubMed]

8.

Edelson D, Abella B, Kramer-Johansen J, et al. Effects of compression depth and pre-shock pauses predict defibrillation failure during cardiac arrest. Resuscitation. 2006;71(2):137-145. [PubMed]

9.

Cheskes S, Schmicker R, Verbeek P, et al. The impact of peri-shock pause on survival from out-of-hospital shockable cardiac arrest during the Resuscitation Outcomes Consortium PRIMED trial. Resuscitation. 2013;85(3):336-342. [PMC]

Reviewing with the staff

Compression pauses kill people!! For each pause, there is a subsequent decrease in cerebral perfusion pressure. Interventions such as intubation, pulse checks and IV starts should occur through a team approach to resuscitation that minimizes interruptions in CPR. Interruptions around shock delivery are particularly harmful with the pre-shock pause being the most important. New automatic devices that charge in the background and provide rhythm analysis while CPR is ongoing will aid the lay provider in minimizing pre-shock pause. Minimizing time to interpret the rhythm via manual defibrillation can shorten pre-shock pause but when you aren’t sure, don’t waste time, get back on the chest and minimize chest compression interruptions.

Sheldon Cheskes, MD CCFP(EM) FCFP

Dr. Sheldon Cheskes is the Medical Director at the Regions of Halton and Peel, Sunnybrook Centre for Prehospital Medicine. He is an Associate Professor with the Department of Family and Community Medicine, Division of Emergency Medicine at the University of Toronto. Dr. Cheskes is recognized as an authority in the area of CPR quality. He has published extensively in the area of prehospital management and cardiac arrest resuscitation.

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Dr. Stuart Netherton is a resident in the FRCPC Emergency Medicine training program at the University of Saskatchewan, in Saskatoon. He has an interest in Emergency Medicine research including out-of-hospital cardiac arrest and resuscitation science

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