2017
DOI: 10.3390/app7080840
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Effect of Ultrafast Imaging on Shear Wave Visualization and Characterization: An Experimental and Computational Study in a Pediatric Ventricular Model

Abstract: Plane wave imaging in Shear Wave Elastography (SWE) captures shear wave propagation in real-time at ultrafast frame rates. To assess the capability of this technique in accurately visualizing the underlying shear wave mechanics, this work presents a multiphysics modeling approach providing access to the true biomechanical wave propagation behind the virtual image. This methodology was applied to a pediatric ventricular model, a setting shown to induce complex shear wave propagation due to geometry. Phantom exp… Show more

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Cited by 12 publications
(8 citation statements)
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“…Note that mathematical methods are widely used in various applications in cardiology, such as in the basic study of arrhythmia sources [29], correlation of cardiovascular risk markers [30], to support and optimize the relevant choices in cardiac surgery via building us mathematical models [31], and to develop novel ways of assessment of properties of the heart via ultrafast shear wave imaging based on multiphysics platform which includes modeling parts [32].…”
Section: Discussionmentioning
confidence: 99%
“…Note that mathematical methods are widely used in various applications in cardiology, such as in the basic study of arrhythmia sources [29], correlation of cardiovascular risk markers [30], to support and optimize the relevant choices in cardiac surgery via building us mathematical models [31], and to develop novel ways of assessment of properties of the heart via ultrafast shear wave imaging based on multiphysics platform which includes modeling parts [32].…”
Section: Discussionmentioning
confidence: 99%
“…This, however, comes at the cost of spatial resolution and a low signal‐to‐noise ratio, that is lower quality of the images, as the transmitted sound energy per scan line is much lower. In order to raise image quality again, coherent compounding of several successive diverging waves is used 10–12 …”
Section: High Frame Rate Imagingmentioning
confidence: 99%
“…In order to raise image quality again, coherent compounding of several successive diverging waves is used. [10][11][12] While many aspects of myocardial mechanics can be analyzed with conventional echocardiographic imaging, higher temporal resolution offers additional information. We will show in the following how increasing the frame rate paves the way to fascinating new applications of echocardiography such as myocardial stiffness measurements, imaging of coronary flow, or visualizing intracavitary blood flow.…”
Section: Hi G H Fr Ame R Ate Imag Ingmentioning
confidence: 99%
“…However, Vos et al [21] only measured mild dispersion for SWs after AVC and MVC in pigs and, therefore, found a poor match with A 0 -Lamb wave modes. This same model was used in studies using external sources like an external shaker [10], [11], [34], [35], and ARF [33], [37]. However, it should be noted that when using an ARF source in a parasternal long-axis view, the load is directed perpendicular to the myocardium, inducing, therefore, mainly the transversal particle motion (and thus the A 0 -mode).…”
Section: A Guided Waves In the Heart Wallmentioning
confidence: 99%