Change of Atrial Refractory Period after Short Duration of Rapid Atrial Pacing: Regional Differences and Possible Mechanisms
Resource
PACE-PACING AND CLINICAL ELECTROPHYSIOLOGY v.22 n.6 pp.927-934
Journal
PACE-PACING AND CLINICAL ELECTROPHYSIOLOGY
Journal Volume
v.22
Journal Issue
n.6
Pages
927-934
Date Issued
1999
Date
1999
Author(s)
LEE, SHIH-HUANG
CHEN, SHIH-ANN
YU, WEN-CHUNG
CHENG, JUN-JAGK
KAUN, PEILIANG
HUNG, GHI-REN
CHANG, MAU-SONG
LIN, FANG-YUE
Abstract
It is unknown whether there are regional differences in the change of atrial effective refractory period (ERP) after a short duration of rapid atrial pacing. Furthermore, the effects of calcium channel and potassium channel on this phenomenon have not been extensively investigated, in opened -chest dogs, the endocardial monophasic action potential duration at 90% repolarization (APD(90)) from the right atrial appendage, and ERP from seven atrial sites were measured before and after rapid atrial pacing at 800 beats/ min for 30 minutes. Both atrial ERP and APDS, significantly shortened after rapid atrial pacing. The postpacing atrial ERP and APD(90 ) shortening persisted for 119 +/- 3 and 123 + /- 4 seconds after cessation of pacing respectively. There was no significant difference in the magnitude or recovery course of atrial ERP shortening after pacing among the seven atrial sites. Pretreatment with nicorandil and d-sotalol had no effects on the magnitude or recovery course of atrial ERP shortening after pacing. However, the degree of ERP and APD(90) shortening after pacing was significantly attenuated in the verapamil and ryanodine groups; furthermore, the recovery of ERP and APD(90) after cessation of pacing was faster in the two groups. In conclusion, shortening of atrial ERP induced by short-duration rapid atrial pacing was uniform in both atria. Both the adenosine triphosphatase (ATP) dependent potassium current and rapid component of the delayed rectifier did not significantly influence this phenomenon, but both the verapamil and ryanodine could significantly attenuate the degree of atrial ERP and APD(90) shortening.
Subjects
atrium
refractory period
tachycardia
calcium channel
potassium channel
ANTIARRHYTHMIC DRUG-ACTION
Type
journal article