F. Extramiana et al., Ventricular repolarisation and holter monitoring: Role of sympathetic blockade on the physiology of the QT/RR ratio, ARCH MAL C, 93(11), 2000, pp. 1277-1283
Circadian variations of the QT interval and its heart rate dependency have
been established. However, the respective roles of the sympathetic and para
sympathetic nervous systems in their regulation are still undetermined. Eig
hteen healthy volunteers (average age 39 +/- 7 years, 10 men) were recruite
d and selected randomly to receive either placebo or atenolol (100 mg/day).
The treatments were crossed after 7 days. The rate dependency of the QT wa
s assessed by day and by night by 24 hour Holter ECG monitoring.
The effects of atenolol on the rate dependency of the QT interval depend on
the time of day. During the daytime, the QT rate dependency was reduced by
atenolol (0.180 (0.162: 0.198) versus 0.216 (0.195: 0.236) with placebo, p
< 0.01) whereas during the night, the QT rate dependency was the same in bo
th groups. Therefore, the betablocker is associated with an inversion of th
e daily modulation of the QT fate dependency. The daytime rate-dependency o
f the QT interval in decreased with betablocker therapy.
This result suggests a direct or indirect influence of the sympathetic nerv
ous system on the rate dependency of ventricular repolarisation.