If the atria are activated prior to the ventricles, a retrograde P-wave will be visible in leads II, III and aVF prior to the QRS complex. In most cases, the P-wave is not visible because when impulses are discharged from the junctional area, atria and ventricles are depolarized simultaneously and ventricular depolarization (QRS) dominates the ECG. The atria will be activated in the opposite direction, which is why the P-wave will be retrograde. In both cases listed above the impulse will originate in the junction between the atria and the ventricles, which is why ectopic beats and ectopic rhythms originating there are referred to as junctional beats and junctional rhythms. The cells in the atrioventricular node itself may start discharging impulses under pathological circumstances, such as in ischemia.These cells are capable of spontaneous depolarization (i.e they display automaticity) and can therefore act as latent pacemakers (which become active when atrial impulses do not reach the atrioventricular node). There are cells with pure automaticity around the atrioventricular node.However, impulses are occasionally discharged in the atrioventricular node or by cells near the node. Junctional tachycardia is less common. Basic knowledge of arrhythmias and cardiac automaticity will facilitate understanding of this article.Īs discussed in Chapter 1 the atrioventricular node does not exhibit automaticity, meaning that it does not discharge spontaneous action potentials, at least not under normal circumstances. The most common rhythm arising in the AV node is junctional rhythm, which may also be referred to as junctional escape rhythm. In this article, you will learn about rhythms arising in, or near, the atrioventricular (AV) node. Rhythms arising near the atrioventricular node: junctional rhythm (escape rhythm) and junctional tachycardia
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