期刊
ULTRASOUND IN MEDICINE AND BIOLOGY
卷 35, 期 11, 页码 1908-1916出版社
ELSEVIER SCIENCE INC
DOI: 10.1016/j.ultrasmedbio.2009.05.020
关键词
Microbubbles; Disruption; Plane waves; Dissolution; Ultrafast; Targeted contrast agents; Molecular imaging
资金
- Fondation Pierre-Gilles de Gennes
The disappearance of ultrasound contrast agents after disruption can provide useful information on their environment. However, in vivo acoustical imaging of this transient phenomenon, which has a duration on the order of milliseconds, requires high frame rates that are unattainable by conventional ultrasound scanners. In this article, ultrafast imaging is applied to microbubble tracking using a 128-element linear array and an elastography scanner. Contrast agents flowing in a wall-less tissue phantom are insonified with a high-intensity disruption pulse followed by a series of plane waves emitted at a 5 kHz PRF. A collection of compounded images depicting the evolution of microbubbles is obtained after the echoes are beamformed in silico. The backscattering of the microbubbles appears to increase in the first image after disruption (4 ms) and decrease following an exponential decay in the next hundred milliseconds. This microbubble dynamic depends on the length and amplitude of the high-intensity pulse. Furthermore, confined microbubbles are found to differ significantly from their free-flowing counterparts in their dissolution curves. The high temporal resolution provided by ultrafast imaging could help distinguish targeted microbubbles during molecular imaging. (E-mail: olicou@gmail.com) (C) 2009 World Federation for Ultrasound in Medicine & Biology.
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