Static versus dynamic distensibility of the carotid artery in humans.

In clinical studies, the elastic behavior of central arteries is usually assessed by measuring dynamic distensibility. In this study, we aimed to investigate how dynamic and static distensibility of the common carotid artery (D(dyn) and D(stat), respectively) are related in 28 healthy volunteers of 20-71 years. The carotid diameter and its change with the pressure pulse were measured using an ultrasound echo-tracking device.

Changes in left ventricular contractility with the phase of respiration.

The end-systolic wall stress (sigma(es))-velocity of circumferential fiber shortening (V(cfsc)) relation was defined during the respiratory cycle, in order to obtain a totally noninvasive measure of left ventricular contractility. Eight young, healthy subjects were studied with echocardiography and calibrated carotid pulse tracings, while performing slow paced breathing. Left ventricular sigma(es) vs.

Effect of vasoactive drugs on carotid diameter in humans.

We studied whether vasoactive drugs used to determine baroreflex sensitivity influence baroreceptor firing by affecting carotid sinus smooth muscle or simply by stretching the sinus wall through changes in pressure. In six young healthy subjects, the diameter of the carotid artery and its change with arterial pulse were measured with ultrasonography. Blood pressure was measured by Finapres.

Relation between baroreflex sensitivity and carotid artery elasticity in healthy humans.

We investigated whether physiological variability in arterial baroreflex sensitivity (BRS) was related to differences in carotid elastic behavior among 19 young healthy subjects (age 18-26 yr). The diameter of the carotid artery (D) and its change during the arterial pulse (delta D) were monitored by a phase-locked echotracking device (UT-4 Hokanson), and pulse pressure (delta P) was measured in the brachial artery by sphygmomanometry. Distensibility coefficient (DC) for the common carotid artery was calculated using the formula DC = (2 x delta D/D)/delta P.

Heart rate variability after complete autonomic blockade in man.

In a number of studies, using the autoregressive model for frequency domain analysis of R-R interval fluctuations, the low frequency (LF) component (centered at about 0.1 Hz) is claimed to index sympathetic activity level. The aim of this study was to investigate the mediation mechanism of the LF component by pharmacological blockade.