59. Pacemakers

Question 1

Have a look at this ECG page 175

Answer 1

The ECG shows paced rhythm from a ventricular pacemaker with a rate of
approximately 100 bpm.

The QRS complexes are broad and bizarre looking in keeping with the abnormal pathway through slower conducting ventricular tissue.

Question 2

How are pacemakers classified?

Answer 2

There is a five-letter code that describes the characteristics of each permanent pacemaker.

The first three letters are the most important.

The North American Society of Pacing and Electrophysiology (NASPE) and the British Pacing and
Electrophysiology Group (BPEG) produced a pacemaker code (NBG) in 1987 revised in 01

Question 3

I

II

III

Answer 3

I
Chamber paced

O = No action
A = Atrium
V = Ventricle
D = Dual

II Chamber sensed

O = No action
A = Atrium
V = Ventricle
D = Dual

III
Response to sensed information

O = No action
T = Pacemaker triggered
I = Pacemaker inhibited
D = Dual
(ventricular sensed events lead to inhibition
but atrial sensed events trigger ventricular output)

Question 4

IV

Answer 4

IV
Programmability, rate modulation

The ability of the pacemaker to alter the pacing rate in response to physiological
variables such as increased activity, respiration or blood temperature. Generally,
the sensors respond to increased movement or increased minute ventilation.

O = No action
R = Rate modulation

Question 5

V

Answer 5

v
Multisite Pacing
O = No action
A = Atrium
V = Ventricle
D = Dual

Question 6

The commonest pacemaker modes

Answer 6

The commonest pacemaker modes are:
VVI (16.9%), VVIR (24.8%), DDD
(27.3%) and DDDR (25.4%)

Question 7

CRT

Answer 7

CRT (Cardiac resynchronisation therapy), or biventricular pacing, is used to
improve cardiac performance in patients with heart failure.

Question 8

ICD

Answer 8

ICDs (Implantable cardioverter defibrillators) can be complex and tailored
to individual patients. They, too, have NASPE/BPEG codes to describe their
function.

Chamber shocked (I)

Anti-tachycardia pacing chamber (II)

Anti-tachycardia detection (III)

Pacing chamber (IV)

I + II + IV

O = No action
A = Atrium
V = Ventricle
D = Dual

III
Electrogram
Haemodynamic
Ventricle

Question 9

What is the anaesthetic management of a patient who is fitted with a
pacemaker and requires surgery?

Answer 9

The main peri-operative problems in a patient with a permanent pacemaker
are due to the effects of anaesthetic agents, altered physiology and surgical
diathermy.

Question 10

Pre-operative assessment

Usual anaesthetic assessment plus:

Answer 10

Establish the original indication for inserting the pacemaker, what type it is,
when it was last checked and information about any programmed functions
it may have. If it’s an ICD, has it shocked them?

Look for symptoms that may suggest problems with pacing, e.g. syncope or
palpitations

Pacemakers with rate-responsive or anti-tachycardia modes should probably
have them deactivated pre-operatively

Check pacemaker function:
ECG
If the intrinsic rate is higher than that set on
the pacemaker, then a Valsalva manoeuvre
may be employed to check function. CXR will
identify number and integrity of leads

Question 11

Intra-operative management

Answer 11

Appropriate monitoring based on pre-op assessment.

An alternative means of pacing must be immediately available: external,
transvenous or oesophageal.

Care at induction – may result in stimulation or inhibition of the pacemaker
due to alterations in myocardial conduction or sensed muscular contractions
(e.g. etomidate or suxamethonium) depending on the pacemaker
programme.

Volatile agents do not significantly alter the pacing threshold

Etomidate and ketamine may be best avoided due to the possibility of
myoclonic movements.

Avoid hypoxaemia and hypercarbia – ectopics and arrhythmias.

Rate-responsive pacemakers may induce a tachycardia in response to a high
respiratory rate set on the ventilator (trans-thoracic impedance).

Question 12

Diathermy

Answer 12

The use of diathermy may reprogramme the pacemaker, cause
microshock or induce VF. Bipolar should be used if possible or, if
unipolar is essential, the plate should be placed as far away
from the heart as possible. Short bursts followed by long pauses
should be used.

Question 13

Magnets

Answer 13

Magnets In general should not be used. If placed over a programmable
pacemaker in the presence of electromagnetic interference (e.g.
diathermy), there may be unpredictable reprogramming. The
magnet may also initiate a ‘threshold test’ whereby the output
current gradually decreases until failure of capture occurs!
Although the ‘magnet rate’ is usually written on the packaging
for each pacemaker, most anaesthetic references now
recommend that magnets are not used.

Question 14

DCCV

Answer 14

If DC cardioversion is required, the paddles should be placed perpendicular
to the direction of the pacing wire (i.e. in anterior and posterior positions).
The box is designed to protect itself by diverting current away from the
internal circuitry, which may then pass down a damaged lead resulting in
burns.

Question 15

Temp emergency measure?

Answer 15

Isoprenaline may be required as a holding measure, while emergency
pacing is achieved in the event of pacemaker failure

Question 16

Post-operatively

Answer 16

Pacemaker function should be checked at the pacemaker clinic.