Korean J Med.
1998 Sep;55(3):342-348.
Electrophysiologic Properties of the AV Conduction System in Patients with Sinus Node Dysfunction
- Affiliations
-
- 1Division of Cardiology, Department of Internal Medicine,
Chonnam University Hospital, Kwangju, Korea .
- 2The Research Institute of Medical Sciences, Chonnam National University, Kwangju, Korea .
Abstract
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BACKGROUND: It is very important to evalute the function of the atrioventricular conduction system in selecting
appropriate pacemaker, pacing and sensing mode in sick sinus syndrome. It has been reported that atrioventricular
conduction abnormalities were commonly accompanied with sinus node dysfunction (SND). However, there were several
long term follow-up studies indicating that incidence of AV conduction abnormalities was as low as below 1% a year
in patients with SND implanted pacemaker. This study was performed to evaluate the properties of the AV conduction
system in patients with SND.
SUBJECT AND METHODS: Patients subjected to this study were fifty-eight who underwent electrophysiologic study
on suspicion of SND. Sinus node recovery time (SNRT) was defined as the longest time among the times that sinus
rhythm reappeared after rapid atrial pacing for 45 seconds with several cycle lengths, and corrected SNRT (cSNRT) was
worked out by subtracting sinus cycle length (SCL) from SNRT. Criteria for sinus node dysfunction were 1550 msec or
more on SNRT, 550 msec or more on cSNRT and group A (23 cases, 58+/-13 yrs) was defined as SND not retrieved
to normal after intravenous administration of atropine 1-2 mg, group B (21 cases, 52+/-14 yrs) was retrieved to normal
and group C (14 cases, 54+/-13 yrs) was normal control group.
Abnormalities of the AV conduction system were defined as 150 msec or more on AH interval, 500 msec or more on
AVblock cycle length (AV-BCL), 450 msec or more on AV nodeeffective refractory period (AVN-ERP).
RESULTS
SCL in group A, B, C was 1197+/-340 msec, 1215+/-273 msec, and 898+/-129 msec, respectively at baseline
and 886+/-218 msec, 798+/-106 msec, and 722+/-110 msec respectively after atropine administration, showing a significant
prolongation of SCL in group A and B at baseline (p<0.001) and group A after atropine administration (p<0.05). SNRT
in group A, B, C was 3520+/-1817 msec, 3180+/-2390 msec, and 1282+/-116, respectively at baseline and 4155+/-4281 msec,
1237+/-210 msec, 1020+/-245 msec, respectively after atropine administration, showing a significant prolongation of SNRT
in group A and B at baseline (p<0.001) and group A after atropine administration (p<0.05).
AH intervals at baseline and after atropine administration were 107+/-27 msec and 100+/-20 msec in group A, 101+/-21
and 91+/-14 in group B, and 118+/-32 and 83+/-23 in group C, showing no significant difference between 3 groups.
AV-BCLs at baseline and after atropine administration were 428+/-151 msec and 453+/-301 msec in group A, 525+/-140 and
370+/-53 in group B, and 461+/-120 361+/-94 in group C, showing no significant difference between 3 groups. AVN-ERP
was 315+/-57 msec in group A, 343+/-132 msec in group B, 347+/-132 in group C, showing no significant difference
between 3 groups.
There was no significant difference in the incidences of cases with abnormal AH interval, AV-BCL, AVN-ERP, HV
interval between 3 groups. AV block greater than second degree was observed in one patient of group A but none of
group B and C.
CONCLUSIONS
Atrioventricular conduction abnormalities in patients with sinus node dysfunction were not more
common than control subjects. Therefore, atrial pacing rather than ventricular or dual chamber pacing may be safely
selected as a permanent pacing mode for sick sinus syndrome with no combined significant AV block.