In a cardiac arrest, there are several possible rhythms that may result in loss of spontaneous perfusion, including asystole, pulseless electrical activity (PEA) rhythm presentations, pulseless ventricular tachycardia (VT), and ventricular fibrillation (VF).

Asystole

Asystole is a complete lack of electrical activity in the heart, resulting in pulselessness. Primary asystole occurs when there is a problem with the electrical system of the heart and no electrical impulses can be generated. It can be caused by a structural defect affecting the sinoatrial (SA) node, atrioventricular (AV) node, or other part of the conduction system; acute myocardial infarction or non‐ischemic disease such as a tumor or cardiac trauma may be the cause. Primary asystole usually begins as a bradycardia caused by heart block, then proceeds to asystole. Alternatively, a patient who is dependent on his or her pacemaker may develop primary asystole if the pacemaker malfunctions and stops working.

Secondary asystole is caused by factors outside the heart’s electrical system that affect its ability to generate depolarization. Electrolyte abnormalities and acidosis resulting from systemic illnesses can cause this type of asystole; toxicologic issues also can ultimately produce asystole. Untreated VF or pulseless VT can also result in this type of asystole.

Pulseless Electrical Activity

PEA features the unique combination of no discernible cardiac mechanical activity (i.e. a “pulseless” state) with a persistent, identifiable cardiac electrical activity (i.e. the cardiac rhythm). Electromechanical dissociation, an older term used for PEA, is another descriptive phrase for this malignant cardiac presentation – the complete dissociation of electrical and mechanical activity of the cardiovascular system.

PEA is usually caused by two major mechanisms (Table 21.1):

Decreased Preload

1. There is an inadequate blood return to the heart. Cardiac cells cannot contract optimally, nor is there enough blood to generate an adequate blood pressure. This decreased “effective” preload can occur in the setting of pericardial tamponade, tension pneumothorax, large pulmonary embolus (PE), or significant volume loss from trauma or severe dehydration.
   

   Metabolic Dysfunction

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