Asystole resident survival guide

Editor-In-Chief: C. Michael Gibson, M.S., M.D. [1]; Associate Editor(s)-in-Chief: Mahmoud Sakr, M.D. [2]

Overview

Asystole is a state of no cardiac electrical activity, hence no contractions of the myocardium and no cardiac output or blood flow. Asystole is also known as a cardiac arrest rhythm in which there is no distinct electrical activity on ECG. A (flat line) is another acronym for asystole. In asystole, the heart will not respond to defibrillation because it is already depolarized.

Causes

Life Threatening Causes

Asystole is a life-threatening condition and must be treated as such irrespective of the causes. Life-threatening conditions can result in death or permanent disability within 24 hours if left untreated.

Common Causes

Management

Below is an algorithm summarizing the approach to a patient with asystole. Based on the 2010 American heart association ACLS algorithm for asystole^[1]

Asystole

Start CPR for 2 minutes
Give oxygen
Attach monitor and defibrillator
IV/IO access
Epinephrine Q3-5 min
Consider advanced airway, capnography

Rhythm

Shockable

Non-shockable

See VF/VT algorithm

CPR for 2 minutes
Treat Hs&Ts
Epinephrine Q3-5min

Rhythm

Shockable

Non-shockable

ROSC(return of spontaneous circulation

Post–Cardiac Arrest Care

Do's

Efficiency of CPR can be determined by
- Monitoring of chest compression rate and depth
- Adequacy of chest wall relaxation
- Length and duration of pauses in compression and number and depth of ventilations delivered
- Physiologic parameters; partial pressure of end-tidal CO2 [PETCO2], arterial pressure during the relaxation phase of chest compressions, central venous oxygen saturation [ScvO2]
Remember that the foundation of successful ACLS is good BLS , represented in prompt high-quality CPR with minimal interruptions.^[2]^[3]
A new class I recommendation is the use of quantitative waveform capnography for confirmation and monitoring of endotracheal tube placement.
Supraglottic advanced airways continues to be an alternative to endotracheal intubation for airway management during CPR.

Don'ts

Don't routinely use cricoid pressure during airway management of patients in cardiac arrest.
Don't routinely administer atropine in the management of pulseless asystole.

References

↑ Field JM, Hazinski MF, Sayre MR, Chameides L, Schexnayder SM, Hemphill R; et al. (2010). "Part 1: executive summary: 2010 American Heart Association Guidelines for Cardiopulmonary Resuscitation and Emergency Cardiovascular Care". Circulation. 122 (18 Suppl 3): S640–56. doi:10.1161/CIRCULATIONAHA.110.970889. PMID 20956217.
↑ Edelson DP, Abella BS, Kramer-Johansen J, Wik L, Myklebust H, Barry AM; et al. (2006). "Effects of compression depth and pre-shock pauses predict defibrillation failure during cardiac arrest". Resuscitation. 71 (2): 137–45. doi:10.1016/j.resuscitation.2006.04.008. PMID 16982127.
↑ Eftestøl T, Sunde K, Steen PA (2002). "Effects of interrupting precordial compressions on the calculated probability of defibrillation success during out-of-hospital cardiac arrest". Circulation. 105 (19): 2270–3. PMID 12010909.

Template:WikiDoc Sources CME Category::Cardiology

[pmid20956217-1] Field JM, Hazinski MF, Sayre MR, Chameides L, Schexnayder SM, Hemphill R; et al. (2010). "Part 1: executive summary: 2010 American Heart Association Guidelines for Cardiopulmonary Resuscitation and Emergency Cardiovascular Care". Circulation. 122 (18 Suppl 3): S640–56. doi:10.1161/CIRCULATIONAHA.110.970889. PMID 20956217.

[pmid16982127-2] Edelson DP, Abella BS, Kramer-Johansen J, Wik L, Myklebust H, Barry AM; et al. (2006). "Effects of compression depth and pre-shock pauses predict defibrillation failure during cardiac arrest". Resuscitation. 71 (2): 137–45. doi:10.1016/j.resuscitation.2006.04.008. PMID 16982127.

[pmid12010909-3] Eftestøl T, Sunde K, Steen PA (2002). "Effects of interrupting precordial compressions on the calculated probability of defibrillation success during out-of-hospital cardiac arrest". Circulation. 105 (19): 2270–3. PMID 12010909.

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