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==Natural History, Complications, Prognosis==
==Natural History, Complications, Prognosis==
PEA is associated with a poor prognosis, particularly if the cause is not readily identifiable.
PEA is associated with a poor prognosis, particularly if the underlying cause is not readily identifiable and treated.


==Diagnosis==
==Diagnosis==

Revision as of 23:12, 16 September 2012

Pulseless electrical activity
ICD-10 I46.9
DiseasesDB 4166

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Editor-In-Chief: C. Michael Gibson, M.S., M.D. [1]

Synonyms and keywords: PEA; electromechanical dissociation; EMD; non-perfusing rhythm

Overview

Pulseless electrical activity is defined as the absence of a pulse or cardiac contractility despite the presence of electrocardiographic activity. The most common cause is hypovolemia.

Classification

True PEA

There are no cardiac contractions despite electrical activity.

Pseudo PEA

There are very weak cardiac contractions present that fail to generate a blood pressure compatible with systemic perfusion and life despite electrical activity.

Post Defibrillation PEA

Following defibrillation, there can be a period of electromechanical dissociation where electrocardiographic complexes do not generate a pulse. As a result of post defibrillation PEA, it is often useful to continue CPR for up to one minute following restoration of a perfusing rhythm.

Pathophysiology

There is often a downward spiral in the pathophysiology of PEA. A severe initial insult often reduces cardiac output which may in turn cause myocardial ischemia, left ventricular failure, hypoxia and metabolic acidosis. These pathophysiologic disturbances further reduce cardiac output further exacerbating the downward spiral. With loss of cardiac output; hypotension, loss of consciousness and apnea rapidly ensue.

Reduced Preload and Inadequate Filling of the Left Ventricle or

PEA may be due to inadequate filling of the left ventricle with blood to stretch the cardiac sarcomeres adequately to result in a cardiac contraction (i.e. there is inadequate preload). Examples include rapid fluid or blood loss as occurs in major trauma. Cardiac tamponade, pneumothorax, and pulmonary embolism are other examples.

Elevated Afterload

Elevated afterload is rarely a cause of PEA.

Electromechanical Dissociation

In some cases, PEA may be caused by electromechanical dissociation. The normal condition when electrical activation of muscle cells precedes mechanical contraction is known as electromechanical coupling. This coupling is lost in some forms of PEA, and this is known as electromechanical dissociation.

Reduced Contractility

Contraction of the myocardium depends upon the integrity of the troponin subunits.

Reduced Calcium Influx

Calcium binding to troponin is required for contractility. This binding can be reduced in calcium channel blocker overdoses.

Reduced Affinity of Troponin for Calcium

In the setting of hypoxia, calcium binds less avidly to troponin.

Causes

Common causes of PEA include preceding respiratory failure in 40% to 50% of cases, and hypovolemia.

The goal of treatment of PEA is to treat the underlying cause. These possible causes are remembered as the Hs and Ts.[1][2][3]

As noted by repeated balloon inflations in the cardiac catheterization laboratory, transient occlusion of the coronary artery does not cause PEA.

Risk Factors

The administration of beta blockers and calcium channel blockers is associated with an increased risk of PEA. This may be due to their effect on Ca / troponin interactions, and their inhibition of myocardial contractility.

Differentiating PEA From Other Disorders Causing Cardiac Arrest

Epidemiology and Demographics

PEA accounts for approximately 20% of out of hospital cardiac arrests, and accounts for about a third of inhospital cardiac arrests. [4] PEA is responsible for 10% of in-hospital deaths.[5]

Gender

There is a slight female preponderance of PEA. It is unclear if this is mediated by a direct influence of gender on the pathophysiology, or if female gender is a confounder.

Age

Patients with PEA tend to be older.

Natural History, Complications, Prognosis

PEA is associated with a poor prognosis, particularly if the underlying cause is not readily identifiable and treated.

Diagnosis

Symptoms

Electrocardiogram

The appearance of the electrocardiogram varies, but several common patterns exist. There may be a normal sinus rhythm or sinus tachycardia, with discernible P waves and QRS complexes. Sometimes there is a bradycardia, with or without P waves, and often there is a wide QRS complex.[6]

Treatment

Reverse The Underlying Cause

The mainstay of treatment is to reverse the underlying cause of PEA.

Hypovolemic Shock

The most common reversible cause is hypovolemia (i.e. hypovolemic shock) which should be treated with IV fluids or packed red blood cell transfusion.

Tension Pneumothorax

Another readily identifiable and immediately treatable causes include tension pneumothorax (not uncommon in the ICU setting). Often in the ICU, this may occur in a ventilated patient, but conscious patients may complain of the sudden onset of chest pain, there may be the sudden appearance of cyanosis, tracheal deviation, and absent breath sounds on the involved side of the chest. A thin needle can be inserted in the upper intercostal space to relieve the pressure and allow the lung to reinflate.

Cardiac Tamponade

Treatment in the Absence of an Identifiable Underlying Cause

If an underlying cause for PEA cannot be determined and/or reversed, the treatment of pulseless electrical activity is similar to that for asystole.[7]

Epinephrine

The mainstay of drug therapy for PEA is epinephrine 1 mg every 3–5 minutes.

Atropine

Although atropine was previously recommended in the treatment of PEA/asystole, this recommendation was withdrawn in 2010 by the American Heart Association due to lack of evidence for therapeutic benefit.[7]

Na Bicorbonate

Sodium bicarbonate at a dose of 1 meq per kilogram may be considered in this rhythm as well, although there is little evidence to support this practice. Its routine use is not recommended for patients in this context, except in special situations (e.g. preexisting metabolic acidosis, hyperkalemia, tricyclic antidepressant overdose).[7]

CPR

All of these drugs should be administered along with appropriate CPR techniques.

Defibrillation

Defibrillation is not used to treat this rhythm, as the problem lies in the response of the myocardial tissue to electrical impulses.

References

  1. ACLS: Principles and Practice. p. 71-87. Dallas: American Heart Association, 2003. ISBN 0-87493-341-2.
  2. ACLS for Experienced Providers. p. 3-5. Dallas: American Heart Association, 2003. ISBN 0-87493-424-9.
  3. "2005 American Heart Association Guidelines for Cardiopulmonary Resuscitation and Emergency Cardiovascular Care - Part 7.2: Management of Cardiac Arrest." Circulation 2005; 112: IV-58 - IV-66.
  4. Nadkarni VM, Larkin GL, Peberdy MA, Carey SM, Kaye W, Mancini ME, Nichol G, Lane-Truitt T, Potts J, Ornato JP, Berg RA (2006). "First documented rhythm and clinical outcome from in-hospital cardiac arrest among children and adults". JAMA : the Journal of the American Medical Association. 295 (1): 50–7. doi:10.1001/jama.295.1.50. PMID 16391216. Retrieved 2012-09-16. Unknown parameter |month= ignored (help)
  5. Raizes G, Wagner GS, Hackel DB (1977). "Instantaneous nonarrhythmic cardiac death in acute myocardial infarction". The American Journal of Cardiology. 39 (1): 1–6. PMID 831417. Retrieved 2012-09-16. Unknown parameter |month= ignored (help)
  6. Foster B, Twelve Lead Electrocardiography, 2nd edition, 2007
  7. 7.0 7.1 7.2 2010 American Heart Association Guidelines for Cardiopulmonary Resuscitation and Emergency Cardiovascular Care (2010). "Part 8: Adult Advanced Cardiovascular Life Support". Circulation. 122 (18 Suppl): S729–S767. doi:10.1161/CIRCULATIONAHA.110.970988. PMID 20956224. Unknown parameter |month= ignored (help)

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