High framerate vector velocity blood flow imaging using a single planewave transmission angle

Flynn, John P.; Daigle, Ron; Pflugrath, Lauren; Kaczkowski, Peter J.

doi:10.1109/ultsym.2012.0079

Cited by 7 publications

(5 citation statements)

References 6 publications

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“…In real-time “flash Doppler” mode, 15 color-flow power Doppler was superimposed on grayscale plane-wave B-mode images. Although Doppler resolution and sensitivity are relatively modest in this mode, it allows identification of relevant ocular structures and flow, enabling orientation of the probe for data acquisition.…”

Section: Methodsmentioning

confidence: 99%

Plane-Wave Ultrasound Doppler of the Eye in Preeclampsia

Silverman

Urs

Wapner

et al. 2020

Trans. Vis. Sci. Tech.

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Purpose Pre-eclampsia (PE) is a serious complication of pregnancy characterized by high blood pressure, proteinuria, compromised fetal blood supply, and potential organ damage. The superficial location of the eye makes it an ideal target for characterization hemodynamics. Our aim was to discern the impact of PE on ocular blood flow. Methods 18 MHz plane-wave ophthalmic ultrasound scanning was performed on subjects with PE (n = 26), chronic or gestational hypertension (n = 8), and normal controls (n = 19) within 72 hours of delivery. Duplicate three-second long scans of the posterior pole including the optic nerve were acquired at 6000 images/sec for evaluation of the central retinal artery and vein and the short posterior ciliary arteries. The choroid was scanned at 1000 images/sec. Doppler analysis provided values of pulsatile flow velocity and resistance indexes. Results End diastolic velocity was higher, and pulsatility and resistive indexes were significantly lower in the choroid, central retinal artery and short posterior ciliary arteries in PE than in controls. Blood pressure was elevated in PE with respect to controls and was negatively correlated with resistance. Conclusions Although vasoconstriction is considered characteristic of PE, we found reduced resistance in the orbital vessels and choroidal arterioles, implying vasodilation at this level. Future studies incorporating optical coherence tomography angiography for characterization of the retina and choriocapillaris in conjunction with plane-wave ultrasound scanning, particularly in late pregnancy, might address this conundrum. Translational Relevance Use of plane-wave ultrasound scanning for evaluation ocular blood flow in women at risk for PE may offer an avenue towards early detection and clinical intervention.

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Section: Methodsmentioning

confidence: 99%

Plane-Wave Ultrasound Doppler of the Eye in Preeclampsia

Silverman

Urs

Wapner

et al. 2020

Trans. Vis. Sci. Tech.

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“…This fast imaging technique has been proposed for shear wave elastography, electromechanical wave imaging, ultrafast Doppler, ultrafast contrast imaging and functional ultrasound imaging of brain activity (Couture et al 2009;Tanter and Fink 2014). Notably in flow imaging, fast imaging techniques show promising results, especially in ultrafast Doppler (Bercoff et al 2011;Jensen and Nikolov 2004) and vector Doppler (Ekroll et al 2013;Flynn et al 2012;Lenge et al 2014;Yiu et al 2014). The use of high-frame-rate ultrasound to track microbubbles in the bloodstream between imaging frames (high frame-rate UIV) has not been reported.…”

Section: Introductionmentioning

confidence: 99%

Flow Velocity Mapping Using Contrast Enhanced High-Frame-Rate Plane Wave Ultrasound and Image Tracking: Methods and Initial in Vitro and in Vivo Evaluation

Leow

Bazigou

Eckersley

et al. 2015

Ultrasound in Medicine & Biology

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Ultrasound imaging is the most widely used method for visualising and quantifying blood flow in medical practice, but existing techniques have various limitations in terms of imaging sensitivity, field of view, flow angle dependence, and imaging depth. In this study, we developed an ultrasound imaging velocimetry approach capable of visualising and quantifying dynamic flow, by combining high-frame-rate plane wave ultrasound imaging, microbubble contrast agents, pulse inversion contrast imaging and speckle image tracking algorithms. The system was initially evaluated in vitro on both straight and carotid-mimicking vessels with steady and pulsatile flows and in vivo in the rabbit aorta. Colour and spectral Doppler measurements were also made. Initial flow mapping results were compared with theoretical prediction and reference Doppler measurements and indicate the potential of the new system as a highly sensitive, accurate, angle-independent and full field-of-view velocity mapping tool capable of tracking and quantifying fast and dynamic flows.

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“…We implemented flash Doppler 24 for real-time depiction of blood flow in the context of B-mode images In this mode, two-cycle plane waves were emitted at equally spaced angles over ±10° to form B-mode images in real time. At 8.2-ms intervals, B-mode acquisition was interrupted and a series of 28 four-cycle plane waves were emitted at a single 12° angle at a 4-kHz PRF.…”

Section: Methodsmentioning

confidence: 99%

Ultrafast Ultrasound Imaging of Ocular Anatomy and Blood Flow

Urs

Ketterling

Silverman

2016

Invest. Ophthalmol. Vis. Sci.

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PurposeOphthalmic ultrasound imaging is currently performed with mechanically scanned single-element probes. These probes have limited capabilities overall and lack the ability to image blood flow. Linear-array systems are able to detect blood flow, but these systems exceed ophthalmic acoustic intensity safety guidelines. Our aim was to implement and evaluate a new linear-array–based technology, compound coherent plane-wave ultrasound, which offers ultrafast imaging and depiction of blood flow at safe acoustic intensity levels.MethodsWe compared acoustic intensity generated by a 128-element, 18-MHz linear array operated in conventionally focused and plane-wave modes and characterized signal-to-noise ratio (SNR) and lateral resolution. We developed plane-wave B-mode, real-time color-flow, and high-resolution depiction of slow flow in postprocessed data collected continuously at a rate of 20,000 frames/s. We acquired in vivo images of the posterior pole of the eye by compounding plane-wave images acquired over ±10° and produced images depicting orbital and choroidal blood flow.ResultsWith the array operated conventionally, Doppler modes exceeded Food and Drug Administration safety guidelines, but plane-wave modalities were well within guidelines. Plane-wave data allowed generation of high-quality compound B-mode images, with SNR increasing with the number of compounded frames. Real-time color-flow Doppler readily visualized orbital blood flow. Postprocessing of continuously acquired data blocks of 1.6-second duration allowed high-resolution depiction of orbital and choroidal flow over the cardiac cycle.ConclusionsNewly developed high-frequency linear arrays in combination with plane-wave techniques present opportunities for the evaluation of ocular anatomy and blood flow, as well as visualization and analysis of other transient phenomena such as vessel wall motion over the cardiac cycle and saccade-induced vitreous motion.

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High framerate vector velocity blood flow imaging using a single planewave transmission angle

Cited by 7 publications

References 6 publications

Plane-Wave Ultrasound Doppler of the Eye in Preeclampsia

Plane-Wave Ultrasound Doppler of the Eye in Preeclampsia

Flow Velocity Mapping Using Contrast Enhanced High-Frame-Rate Plane Wave Ultrasound and Image Tracking: Methods and Initial in Vitro and in Vivo Evaluation

Ultrafast Ultrasound Imaging of Ocular Anatomy and Blood Flow

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