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Transcript
For the Boards…
Author – Regina Benson, MD
Editor – Dean F. Connors, MD, PhD
PACEMAKER NOMENCLATURE
Key Word Project
2005-2006 Academic Year
PACEMAKER NOMENCLATURE – Regina Benson, MD
The North American Society of Pacing and Electrophysiology (NASPE) and British
Pacing and Electrophysiology Group (BPEG) published as a joint effort the pacemaker code.
This joint project is known as the NBG pacemaker code. The NBG was initially published in 1983
and was last revised in 2002. It describes the five letter code for operation of implantable
pacemakers and defibrillators.
NASPE/BPEG Revised in 2002 NBG Pacemaker Code
Position I
Position II
Position III
Position IV
Position V
(Chamber Paced) (Chamber Sensed) (Response to Sensed Event) (Programmability,
(Multisite Pacing)
O = none
O = none
O = none
O = none
A = atrium
A = atrium
I = inhibited
V = ventricle
V = ventricle
T = triggered
Rate Modulation)
A = atrium
O = none
D = dual (A + V) D = dual (A + V)
D = dual (T + I)
R = rate moduation
Miller RD. Miller’s Anesthesia, 6th ed. Philadelphia: Elsevier, Inc, 2005, pp 1417.
V = ventricle
D = dual (A + V)
The first two positions of this code (Chamber Paced and Sensed) are relatively
straightforward. The third position is the most confusing. The most frequently used programs are
the DDD (dual chamber pacing and sensing, both triggered and inhibited mode), VVI (for single
chamber, ventricular pacing in the inhibited mode), VDD (ventricular pacing with atrial tracking),
and DDI (dual chamber pacing and sensing, but inhibited mode only).
The third position is described as follows:
D - (dual): In DDD pacemakers, atrial pacing is in the inhibited mode (the pacing device
will emit an atrial pulse if the atrium does not contract). In DDD and VDD pacemakers,
once an atrial event has occurred (whether paced or native) the device will ensure that an
atrial event follows.
I - (inhibited): The device will pulse to the appropriate chamber unless it detects intrinsic
electrical activity. In the DDI program, AV synchrony is provided only when the atrial
chamber is paced. If on the other hand if intrinsic atrial activity is present, then no AV
synchrony is provided by the pacemaker.
T - (triggered): Triggered mode is only used when the device is being tested. The pacing
device will emit a pulse only in response to a sensed event.
The VDD pacemaker is used for AV nodal dysfunction but intact and appropriate sinus
node behavior. DDI is rarely used as the primary mode of pacing. The DDI pacer is used for a
patient with a dual-chamber pacemaker that has episodes of paroxysmal atrial fibrillation. DDI
prevents high ventricular rates. Some DDD pacemakers are programmed to enter the DDI mode
when high atrial rates occur.
The fourth position, rate modulation, increases the patient’s heart rate in response to
“patient exercise”. A number of mechanisms (vibration, respiration, and pressure) are used to
detect “patient exercise”. As the exercise wanes, the sensor indicated rate returns to the
programmed mode.
1
For the Boards…
Author – Regina Benson, MD
Editor – Dean F. Connors, MD, PhD
PACEMAKER NOMENCLATURE
Key Word Project
2005-2006 Academic Year
The fifth position describes multisite pacing functionality. Atrial multisite pacing is being
investigated as way to prevent atrial fibrillation. Ventricular multisite pacing is a treatment for
pacing a patient with dilated cardiomyopathy.
There are four types of pacemakers: asynchronous, single-chamber synchronous,
double-chamber AV sequential, and programmable.
•
Asynchronous or fixed-rate (AOO, VOO, DOO) – discharge at a preset rate that is
independent of the inherent heart rate.
•
Single-chamber synchronous or demand (AAI, VVI) – discharge at a preset rate only
when the spontaneous heart rate drops below the preset rate.
•
Dual-chamber AV sequential pacing (VDD, DVI, DDD) – usually uses two electrodes, one
in the atrial appendage and one in the right ventricular apex. The atrium is stimulated to
contract first, then after an adjustable PR interval, the ventricle is stimulated.
•
Programmable pacemakers – pacing rate, pulse duration, voltage output, and R-wave
sensitivity are the most common programmable functions.
References:
1.
Hillel, Z. and D. Thys. Electrocardiography. Miller’s Anesthesia, R. Miller (Ed). Elsevier,
Inc: Philadelphia. 2005, pp 1416-1418.
2.
Yao, Fun-Sun. Pacemakers and Implantable Cardioverter-Defibrillators. Yao & Artusio’s
Anesthesiology: Problem-oriented patient management. Fun-Sun F. Yao (Ed). Lippincott
Williams and Wilkens: Philadelphia, 2003, pp 274-276.
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