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17 March 2015 Transverse oscillation vector flow imaging for transthoracic echocardiography
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Abstract
This work presents the development and first results of in vivo transthoracic cardiac imaging using an implementation of Vector Flow Imaging (VFI) via the Transverse Oscillation (TO) method on a phased-array transducer. Optimal selection of the lateral wavelength of the transversely-oscillating receive field is described, and results from Field II simulations are presented. Measurements are made using the SARUS experimental ultrasound scanner driving an intercostal phased-array probe. The acquisition sequence was composed of interleaved frames of 68-line B-mode and 17-direction, 32-shot vector velocity flow images. A flow pump was programmed for constant flow for in vitro acquisitions at varying depths in a tissue-mimicking fluid. Additionally, mitral, aortic, and tricuspid valves of two healthy volunteers were scanned from intercostal acoustic windows. The acquired RF data were beam-formed via the TO method, and fourth-order estimators were employed for the velocity estimation. The resulting images were compared with those from conventional spectral Doppler and color flow mapping sequences. VFI is shown to be a clinically-feasible tool, which enables new flexibility for choosing acoustic windows, visualizing turbulent flow patterns, and measuring velocities.
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David Pierson Bradway, Kristoffer Lindskov Hansen M.D., Michael Bachmann Nielsen M.D., and Jørgen Arendt Jensen "Transverse oscillation vector flow imaging for transthoracic echocardiography", Proc. SPIE 9419, Medical Imaging 2015: Ultrasonic Imaging and Tomography, 941902 (17 March 2015); https://doi.org/10.1117/12.2081145
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