1. Counter-propagating wave interaction for contrast-enhanced ultrasound imaging.
- Author
-
Renaud G, Bosch JG, Ten Kate GL, Shamdasani V, Entrekin R, de Jong N, and van der Steen AF
- Subjects
- Carotid Arteries diagnostic imaging, Microbubbles, Nonlinear Dynamics, Artifacts, Contrast Media, Image Processing, Computer-Assisted methods, Ultrasonography methods
- Abstract
Most techniques for contrast-enhanced ultrasound imaging require linear propagation to detect nonlinear scattering of contrast agent microbubbles. Waveform distortion due to nonlinear propagation impairs their ability to distinguish microbubbles from tissue. As a result, tissue can be misclassified as microbubbles, and contrast agent concentration can be overestimated; therefore, these artifacts can significantly impair the quality of medical diagnoses. Contrary to biological tissue, lipid-coated gas microbubbles used as a contrast agent allow the interaction of two acoustic waves propagating in opposite directions (counter-propagation). Based on that principle, we describe a strategy to detect microbubbles that is free from nonlinear propagation artifacts. In vitro images were acquired with an ultrasound scanner in a phantom of tissue-mimicking material with a cavity containing a contrast agent. Unlike the default mode of the scanner using amplitude modulation to detect microbubbles, the pulse sequence exploiting counter-propagating wave interaction creates no pseudoenhancement behind the cavity in the contrast image.
- Published
- 2012
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