Combined perfusion and doppler imaging using plane-wave nonlinear detection and microbubble contrast agents

Autor: Ross Williams, Matthew Bruce, Charles Tremblay-Darveau, Laurent Milot, Peter N. Burns
Rok vydání: 2014
Předmět:
Zdroj: IEEE Transactions on Ultrasonics, Ferroelectrics, and Frequency Control. 61:1988-2000
ISSN: 0885-3010
DOI: 10.1109/tuffc.2014.006573
Popis: Plane-wave imaging offers image acquisition rates at the pulse repetition frequency, effectively increasing the imaging frame rates by up to two orders of magnitude over conventional line-by-line imaging. This form of acquisition can be used to achieve very long ensemble lengths in nonlinear modes such as pulse inversion Doppler, which enables new imaging trade-offs that were previously unattainable. We first demonstrate in this paper that the coherence of microbubble signals under repeated exposure to acoustic pulses of low mechanical index can be as high as 204 ± 5 pulses, which is long enough to allow an accurate power Doppler measurement. We then show that external factors, such as tissue acceleration, restrict the detection of perfusion at the capillary level with linear Doppler, even if long Doppler ensembles are considered. Hence, perfusion at the capillary level can only be detected with ultrasound through combined microbubbles and Doppler imaging. Finally, plane-wave contrast-enhanced power and color Doppler are performed on a rabbit kidney in vivo as a proof of principle. We establish that long pulse-inversion Doppler sequences and conventional wall-filters can create an image that simultaneously resolves both the vascular morphology of veins and arteries, and perfusion at the capillary level with frame rates above 100 Hz.
Databáze: OpenAIRE