Pacemaker

Revision as of 19:28, 21 June 2007 by Drj (talk | contribs)

A pacemaker is indicated when the electrical impulse conduction or formation is dangerously disturbed. The paced pacemaker rhythm can easily be recognized on the ECG as it shows pacemaker spikes: vertical signals that represent the electrical activity of the pacemaker.

Atrial pacemaker spikes. The first venricular beat on this image is paced as well.
Ventricular pacemaker spikes
VVI pacemaker rhythm

In the first example image, the atria are being paced, but not the ventricles, resulting in a atrial paced rhythm. Accordingly the ventricular beat is delayed until the atrial signal has passed the AV node. In the second image the ventricles are paced directly, resulting in ventricular paced rhythm. As ventricular pacing occurs exclusively in the right ventricle the ECG shows a left bundle branch pattern. An exception to this rule is left ventricular pacing in patients with congenital anomalies and patients with an epicardial pacemaker that has been placed during surgery.

Pacemaker Coding

Pacemakers can be categorized according to the NASPE coding system, that usually consists of 3-5 letters.

  • The first letter represents the chamber where the signal is "sensed": O=none, A=atria, V=ventricle, D=dual (atrial and / or ventricle)
  • The second letter represents the chamber that is being paced: A=atria, V=ventricle, D=dual (atria and / or ventricle)
  • The third letter represents the action that follows the sensed signal: O = none, T = triggered, I = inhibited (i.e. if the heart beats by itself, the pacemaker is silent) and D = dual (T + I).
  • The fourth letter denotes whether the pacemaker has a fixed rate (0 = none) or has rate modulation (R).
  • The fifth letter indicates whether the pacemaker can pace both the atria and right chamber. This letter is seldomly used.

Commonly Used Pacemakers

The most often used codes are:

  • AAI: the atria are paced, when the intrinsic atrial rhythm falls below the pacemakers threshold
  • VVI: the ventricles are paced, when the intrinsic ventricular rhythm falls below the pacemakers threshold
  • DDD: the pacemaker records both the atrial and ventricular rate and can pace one of each chambers when needed.
  • DDDR: as above, but the pacemaker has a sensor that records a demand for higher cardiac output and can adjust the heart rate accordingly.
  • Biventricular pacemakers (CRT-D): leads in both ventricles are present to synchronize contraction. This cardiac synchronization therapy can improve symptoms and survival in some heart failure patients.
  • ICD (Internal Cardioversion Device): this device can detect and treat ventricular tachycardia and ventricular fibrillation. Usually the first treatment is anti-tachy pacing (pacing at a rate +- 10% above the ventricular rate in ventricular tachycardia, which can convert the rhythm to sinus rhythm). If this is not effective an defibrillator shock is delivered, usually with 16-36 Joules of energy. ICDs can save lives in patients who have a high risk of ventricular arrhythmias. All ICDs have optional pacemaker activity to treat bradycardias. New biventricular ICDs have 3 leads: an atrial lead, a left ventricular lead and a right ventricular lead.

Externe Links

Heart Rhytm Society



80. Atrial-sensed ventricular-paced rhythm

81. AV dual-paced rhythm

82. Failure of appropriate capture, atrial

83. Failure of appropriate capture, ventricular

84. Failure of appropriate inhibition, atrial

85. Failure of appropriate inhibition, ventricular

86. Failure of appropriate pacemaker firing

87. Retrograde atrial activation

88. Pacemaker mediated tachycardia