Dealiasing High-Frame-Rate Color Doppler Using Dual-Wavelength Processing
IEEE Transactions on Ultrasonics, Ferroelectrics, and Frequency Control(2021)
Abstract
Doppler ultrasound is the premier modality to analyze blood flow dynamics in clinical practice. With conventional systems, Doppler can either provide a time-resolved quantification of the flow dynamics in sample volumes (spectral Doppler) or an average Doppler velocity/power [color flow imaging (CFI)] in a wide field of view (FOV) but with a limited frame rate. The recent development of ultrafast parallel systems made it possible to evaluate simultaneously color, power, and spectral Doppler in a wide FOV and at high-frame rates but at the expense of signal-to-noise ratio (SNR). However, like conventional Doppler, ultrafast Doppler is subject to aliasing for large velocities and/or large depths. In a recent study, staggered multi-pulse repetition frequency (PRF) sequences were investigated to dealias color-Doppler images. In this work, we exploit the broadband nature of pulse-echo ultrasound and propose a dual-wavelength approach for CFI dealiasing with a constant PRF. We tested the dual-wavelength bandpass processing, in silico, in laminar flow phantom and validated it in vivo in human carotid arteries (n = 25). The in silico results showed that the Nyquist velocity could be extended up to four times the theoretical limit. In vivo, dealiasedCFI were highly consistentwith unfolded Spectral Doppler (r(2) = 0.83, y = 1.1x + 0.1, N = 25) and provided consistent vector flow images. Our results demonstrate that dual-wavelength processing is an efficient method for high-velocity CFI.
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Key words
Dealiasing,multi wavelength processing,ultrafast color Doppler
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