Page 11/59 · Cardiovascular Critical Care II

Data Tables

Cardiovascular Critical Care II

Patrick M. Wieruszewski ~3 min read Module 12 of 20

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Cardiovascular Critical Care II

Patient Case

2L.S. is a 66-year-old woman visiting her husband at the hospital on the hospice unit. She is buying lunch

in the cafeteria, and while in line to check out, she collapses. The emergency response team of which you

are part is summoned. L.S. does not respond to voice or tapping of the shoulder, and a brief look at her

chest shows no chest movement. Chest compressions are initiated while the crash cart and defibrillator are

retrieved. Of note, a bag-mask ventilator is available at the scene because it is carried with the emergency

response team. Which is most accurate about L.S.’s airway and breathing management?

A.A compression/ventilation ratio of 15:2 should be used throughout resuscitation efforts.

B.Because it is a multiple-rescuer scene, bag-mask ventilation should not be used because it is recom-

mended only in single-rescuer resuscitations.

C.Rescue breaths should be given at a ratio of 30 compressions to 2 breaths, avoiding excessive ventilation

given as synchronous ventilations.

D.Bag-mask ventilation should not be used in any patient because advanced airways are preferred to supply

oxygen and eliminate CO2.

Rapid defibrillation with a manual or automated external defibrillator (AED) (IHCA and OHCA - chain

of survival)

Defibrillation shock = unsynchronized shock.

Successful defibrillation is defined as 5 seconds or greater of termination of arrhythmia after a

shock is delivered.

Early defibrillation of VF is crucial because it is the most common rhythm in witnessed OHCA,

survival diminishes rapidly over time, and VF often progresses to asystole (Resuscitation 2000;44:7-

17; Circulation 1997;96:3308-13).

d.	Three key actions must occur within moments of VF SCA to increase the likelihood of survival: (1)

activation of the emergency medical services system (e.g., emergency response team), (2) provision

of CPR, and (3) shock delivery (Ann Emerg Med 1993;22:1652-8).

Performing chest compressions while a defibrillator is obtained significantly improves the probability

of survival (Circulation 2009;120:1241-7). When VF is present for more than a few minutes, the

myocardium becomes depleted of oxygen and energy substrates (e.g., adenosine triphosphate [ATP])

(Grover 1977).

CPR can provide the oxygen and ATP needed until the shock is delivered.

ii.

Increased likelihood of termination of VF from shock delivery and ROSC if CPR given first

(Circulation 2004;110:10-5).

iii.

If CPR is initiated immediately, survival can double or triple at most time intervals until

defibrillation occurs (Resuscitation 2000;44:7-17; Ann Emerg Med 1995;25:780-4; Ann Emerg

Med 1993;22:1652-8).

Early defibrillation is a powerful predicator of ROSC after VF.

Survival rates are highest for VF when CPR and defibrillation occur within 3–5 minutes of the

event (Circ Cardiovasc Qual Outcomes 2010;3:63-81; Resuscitation 2009;80:1253-8). In the

IHCA setting, prompt defibrillation (less than 2 minutes from the VF event) was associated

with higher rates of long-term survival (Circulation 2018;137:2041-51).

(a)	For every minute that passes after collapse, survival from VF decreases 7%–10% (Ann

Emerg Med 1993;22:1652-8).

(b)	CPR prolongs VF and delays the progression to asystole (Resuscitation 2000;47:59-70;

Am J Emerg Med 1985;3:114-9).

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