P. Kvitting et al., Velocity distribution in the ascending aorta in pigs during chronotropic and inotropic stimulation, SC CARDIOVA, 33(4), 1999, pp. 199-205
The influence of heart rate, stroke volume and myocardial contractility on
temporal and spatial velocity distribution in the ascending aorta was inves
tigated in 10 pigs. A pulsed Doppler ultrasound technique with intraluminal
probe and a single crystal connected to a position-sensitive device was us
ed to measure blood velocity. After baseline registration, the heart rate w
as increased in two discrete steps of 20 beats/min by right atrial pacing.
Isoproterenol infusion was given to increase contractility. Finally, withou
t isoproterenol, the heart rate was again raised to the values found during
inotropic stimulation. The first three measuring situations did not differ
haemodynamically, apart from increased heart rate and reduced stroke volum
e. Increased heart rates were not associated with significant change in the
parameters for skewness of velocity distribution (peak systolic slope and
ratio, maximum skewness slope and ratio). During inotropic stimulation the
peak left ventricular dP/dt, aortic systolic pressure, cardiac output and s
troke volume were greater than at comparable paced heart rate, and the peak
systolic slope of velocity distribution was significantly increased. Veloc
ity distribution in the ascending aorta thus was not altered by increased h
eart rate alone, whereas skewness of distribution was enhanced by increased
inotropic drive of the myocardium and the concomitant central and peripher
al vascular changes.