The application of echo-tracking methods to endothelium-dependent vasoreactivity and arterial compliance measurements

Abstract

Measurements of endothelium-dependent vasoreactivity and arterial compliance are important metrics of vascular pathophysiology which may be used for the development and evaluation of therapeutic methods. The technique of ultrasonic echo tracking is applicable to measurements of endothelium-dependent vasoreactivity and arterial compliance. To evaluate the application of echo tracking to these measurements, we constructed a system based upon analog-to-digital conversion and storage of the radio frequency (RF) ultrasound signals. Off-line analysis of the RF data with various echo-tracking algorithms demonstrated two potential sources of error: tracking drift and RF transition regions. The tracking drift resulted from the slow accumulation of tracking error. The RF transition regions were associated with disparate motions of neighboring reflectors or the insonation of a new series of tissue layers. As a result of these sources of error, the application of echo tracking to endothelium-dependent vasoreactivity measurements is unlikely to outperform duplex ultrasound methods. The application of echo tracking to arterial compliance measurements via the arterial pressure/diameter relationship may produce variable results due to RF transition regions. Finally, the application of echo tracking to arterial compliance measurements via the pulse wave velocity is relatively insensitive to these sources of error because the pulse-wave velocity measurement depends upon the timing of the peak arterial distension, not on the absolute value of the distension.