Page 13/59 · 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

T.V. is a 72-year-old man with a history of chronic liver disease, hypoglycemia, and atrial fibrillation. He

was admitted to the medical intensive care unit (MICU) 2 days ago for sepsis requiring aggressive fluid

resuscitation and intravenous antibiotics. T.V. did not require vasopressors to treat his sepsis. On ICU day 3,

T.V. develops VF on telemetry, loses consciousness, and becomes pulseless; the MICU team is summoned

for a presumed VF cardiac arrest. Pads are placed on T.V. by the time the team arrives, and the rhythm is

confirmed to be VF. Which is the most accurate statement regarding defibrillation for T.V.?

A.Three vital actions with VF can lead to increased survival if they occur rapidly: activate emergency

response system, provide CPR, and deliver shock.

B.T.V. should not be defibrillated but should be paced out of the VF, if possible, because pacing is more

effective for pulseless VF.

C.Chest compressions should be delayed until the defibrillator is charged because defibrillation is the

definitive treatment of VF.

D.Alternative treatments such as antiarrhythmics, vasopressors, and magnesium should be tried first.

C.ACLS Interventions

Airway control and ventilation

Background

During CPR, oxygen delivery to the heart and brain becomes more flow-dependent than arterial

oxygen saturation–dependent (Ann Emerg Med 1990;19:1104-6).

ii.

Placement of an advanced airway in cardiac arrest should not delay CPR or defibrillation.

iii.

No studies address the optimal timing of advanced airway placement. The guiding general

concept is to place the advanced airway while minimizing interruptions to chest compressions.

iv.

Conflicting evidence exists for the urgent placement of an advanced airway.

(a)	Study of IHCA has shown an increased 24-hour survival in patients with an advanced

airway placed within 5 minutes. No difference was found regarding ROSC (Resuscitation

2010;81:182-6); however, another study has shown a worse overall survival rate in cardiac

arrest patients who required intubation (Arch Intern Med 2001;161:1751-8).

(b)	OHCA studies have shown that intubation in the rural and urban setting and, more

specifically, intubation within 13 minutes, is associated with better survival (Med J Aust

2006;185:135-9; Prehosp Emerg Care 2004;8:394-9).

(c)	One large randomized controlled trial comparing endotracheal intubation to bag-mask

ventilation in OHCA found no difference in 28-day survival with favorable neurological

function (JAMA 2018;319:779-87).

Oxygen during CPR

Unclear what the optimal concentration of inspired oxygen content should be during CPR, but

it is currently recommended that maximum (e.g., 100%) inspired oxygen be used to optimize

arterial oxyhemoglobin content and, subsequently, oxygen delivery (Circulation 2015;132(suppl

2):S315-S367).

ii.

In OHCA, patients with a higher Pao2 had higher survival to hospital admission but not

neurologically intact survival, which is likely a function of the underlying pathophysiology

(Resuscitation 2013;84:770-5).

iii.

Extended exposure to high oxygen concentrations carries the risk of toxicity, but this toxicity

has not been shown in the short-term setting of adult CPR (Resuscitation 1999;42:221-9).

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