Characterization of common carotid artery blood-flow waveforms in normal human subjects

Knowledge of human blood-flow waveforms is required for in vitro investigations and numerical modelling. Parameters of interest include: velocity and flow waveform shapes, inter- and intra-subject variability and frequency content. We characterized the blood-velocity waveforms in the left and right common carotid arteries (CCAs) of 17 normal volunteers (24 to 34 years), analysing 3560 cardiac cycles in total. instantaneous peak-velocity (V-peak) measurements were obtained using pulsed-Doppler ultrasound with simultaneous collection of ECG data. An archetypal V-peak waveform was created using velocity and timing parameters at waveform feature points. We report the following timing (post-R-wave) and peak-velocity parameters: cardiac interbeat interval (T-RR) = 0.917 s (intra-subject standard deviation = +/-0.045 s); cycle-averaged peak-velocity (V-CYC) = 38.8 cm s(-1) (+/-1.5 cm s(-1)); maximum systolic V-peak = 108.2 cm s(-1) (+/-3.8 cm s(-1)) at 0.152 s (+/-0.008 s); dicrotic notch Vpeak = 19.4 cm s(-1) (+/-2.9 cm s(-1)) at 0.398 s (+/-0.007 s). Frequency components below 12 Hz constituted 95% of the amplitude spectrum. Flow waveforms were computed from Vpeak by analytical solution of Womersley flow conditions (derived mean flow = 6.0 ml s(-1)). We propose that realistic, pseudo-random flow waveform sequences can be generated for experimental studies by varying, from cycle to cycle, only T-RR and V-CYC of a single archetypal waveform.