In all other situations the underlying condition should be targeted and, if necessary, bradycardia should be treated ( treatment alternatives are discussed in the article on sinus node dysfunction). Sinus arrest/pause due to increased vagal tone does not necessitate treatment but it might be wise to observe the patient for 24 hours (including ECG monitoring). Side effects of drugs (diltiazem, verapamil, beta-blockers, digitalis).In all other situations, sinus arrest/pause should be considered abnormal, and the following differential diagnoses are at hand: It commonly affects younger individuals who endure intense emotional stress, acute pain or other stimuli that increases vagal tone. High vagal tone is benign and the most common cause of sinus arrest/pause. Syncope due to sinus arrest is refferred to as Adam-Stokes attack. It is uncommon that sinus arrest leads to persistent asystole latent pacemakers virtually always awake and salvage the rhythm. Since there is competition between these latent pacemakers, the one with the fastest intrinsic rate of depolarization will be the pacemaker, which means that it usually is atrial myocardium.Īsystole occurs if no escape rhythm awakes. The escape rhythm with wide QRS complexes are referred to as ventricular rhythm.Īll these rhythms are regular. If the impulse is discharged distal to the bifurcation of the bundle of His, the QRS complexes will be wide (QRS duration ≥0.12 s). If the impulses are discharge from fibers proximal to the bifurcation of the bundle of His, QRS complexes will be normal (QRS duration <0.12 s), because both bundle branches receive the impulse and spread it. The His-Purkinje network: All these fibers possess automaticity with an intrinsic rate of depolarization around 20–40 beats/min.This rhythm is referred to as junctional rhythm. If the P-wave is visible, it is retrograde in lead II (because of the reversed direction of atrial activation) and may be located before or after the QRS complex. QRS complexes are normal (provided that intraventricular conduction is normal). These cells are capable of generating an escape rhythm with a rate of 40 beats per minute. Cells near the atrioventricular node: The atrioventricular node does not possess automaticity, but cells surrounding it do.This rhythm may be referred to as atrial rhythm. The resulting P-wave is morphologically different from the sinus P-wave, but the QRS complex is normal (provided that intraventricular conduction is normal). The intrinsic rate of depolarization in these cells is 60 beats per minute. Specific clusters of atrial myocardium: There are clusters of atrial myocardium that possess automaticity and thus pacemaker function.In most cases the escape rhythm originates in either of the following three structures (discussed in detail in Chapter 1): Three or more consecutive beats from a latent pacemaker (or other ectopic focus) is referred to as an escape rhythm. Less than 3 consecutive beats (or from a latent pacemaker (or any other ectopic focus) are referred to as escape beats. Latent pacemakers can continue discharging impulses until the sinoatrial node recovers and starts discharging. Also note the ST-segment elevations (which in this case has no relation to the sinoatrial arrest).Īs discussed in Chapter 1, if the sinoatrial node fails to discharge an impulse, there are three latent pacemaker structures that can (and will) discharge impulses that will salvage the situation.
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