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Primary Radiation Force to Ultrasound Contrast Agents in Propagating and Standing Acoustic Field  

Seo, Jong-Bum (Department of Biomedical Engineering, Yonsei University)
Publication Information
The Journal of the Acoustical Society of Korea / v.28, no.1E, 2009 , pp. 1-8 More about this Journal
Abstract
Primary radiation force on ultrasound contrast agents (UCA) in a propagating and standing acoustic field was explored. A specific ultrasound contrast agent $Albunex^{(R)}$ and $Optison^{(R)}$ were chosen for simulation. The model was developed based on a shelled bubble model proposed by Church. The numerical simulation suggests that bubble translational motion is more significant in therapeutic ultrasound due to higher intensity and long pulse duration. Even a single cycle of a propagating wave of 4 MPa at 1 MHz can cause a bubble translational motion of greater than $1{\mu}m$ which is approximately one tenth of capillary. Hence, UCA characteristics can be significantly changed in therapeutic ultrasound without rapid bubble collapses.
Keywords
Acoustic Radiation force; Ultrasound Imaging; Ultrasound Therapy; Ultrasound Contrast Agent; Density of Contrast Agent Characteristics;
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1 Tran BC, Seo J, Hall TL, Fowlkes JB, Cain CA. 'Effects of contrast agent infusion rates on thresholds for tissue damage produced bym single exposures of high-intensity ultrasound'. IEEE Trans. UFFC. Vol. 52, PP. 1111-1120, 2005   DOI   ScienceOn
2 Ye Z, Ding L. 'Acoustic dispersion and attenuation relations in bubbly mixture'. J. Acoust. Soc. Am. vol. 98, PP. 1629-1636, 1995   DOI
3 Leighton TG. The Acoustic Bubble. Academic Press, 1997
4 Kreyszig E. Advanced Engineering Mathematics 7th ed. John Willey & Sons, 1993
5 Bristol-Myers Squibb Medical Imaging. Definity. http://www.definityimaging.com/pdf/prescribinginfo.pdf. 2007
6 Goldberg BB, Raichlen JS, Forsberg F, Ultrasound Contrast Agents: Basic principles and clinical applications 2nd ed. Martin Dunitz, 2001
7 Dayton PA, Morgan KE, Klibanov AL, Brandenburger G, Nightingale KR, Ferrara KW, 'A Preliminary Evaluation of the Effects of Primary and Secondary Radiation Forces on Acoustic Contrast Agents', IEEE Trans. UFFC. vol, 44, pp, 1264-1276, 1997   DOI   ScienceOn
8 Commander KW, Prosperetii A. 'Linear pressure waves in bubbly liquids: Comparison between theory and experiments'. J. Acoust. Soc. Am. Vol. 85, PP. 732-746, 1989   DOI
9 Kargl SG. 'Effective approach to linear acoustics in bubbly liquids'. J. Acoust. Soc. Am. vol. 111, PP. 168-173, 2002   DOI   ScienceOn
10 Hoff L. Acoustics Characterization of contrast agents for medical ultrasound imaging. Kluwer Academic Publishers, 2001
11 Umemura S, Kawabata K, Hashiba K, 'Enhancement of ultrasonic absorption by microbubbles for therapeutic application', IEEE Ultrasonics Symposium 2001   DOI
12 GE Healthcare. OPT-1B. http://www.amershamhealth-us.com. 2006
13 Dayton PA, Klibanov AL, Brandenburger G, Ferrara K, 'AcousticRadiation Force in vivo: A mechanism to assist targeting of microbubbles', Ultrasound Med. & BioI, Vol. 25, PP. 195-1201, 1999
14 Seo J, Choi JJ, Fowlkes JB, O'Donnell M, Cain CA. 'Aberration Correction by Nonlinear Beam mixing: Generation of a Pseudo Point Sound Source'. IEEE Trans. UFFC. Vol. 52, PP. 1970-1980, 2005   DOI   ScienceOn
15 Miller DL, Kripfgans OD, Fowlkes JB, Carson PL, 'Cavitation nucleation agents for nonthermal ultrasound surgery'. J. Acoust. Soc, Am. vol, 107, pp, 3480-3486, 2000   DOI   ScienceOn
16 Tran BC, Seo J, Hall TL, Fowlkes JB, Cain CA. 'Microbubble-enhanced cavitation for noninvasive ultrasound surgery', IEEE Trans. UFFC, Vol. 50, PP. 1296-1304, 2003   DOI   ScienceOn
17 de Jong N, Cornet R, Lancee CT. 'Higher harmonics of vibrating gas-filled microspheres'. Part one: simulations. Ultrasonics. vol. 32, no. 447-452, 1994   DOI   ScienceOn
18 Prosperetii A. 'Thermal effects and damping mechanisms in the forced radial oscillations of gas bubbles in liquidS'. J. Acoust. Soc. Am. Vol. 61, pp. 17-27, 1977   DOI
19 Hoff L. 'Acoustic properties of ultrasonic contrast agents'. Ultrasonics. Vol. 34, pp. 591-593, 1996   DOI   ScienceOn
20 Kaneko Y, Allen JS, Yoshizawa S, Matsumoto Y, 'Heating Mechanism of Microbubbles and bubble properties', IEEE Ultrasonics Symposium 2004   DOI
21 Church CC. 'The effects of an elastic solid surface layer on the radial pulsations of gas bubbles'. J. Acoust. Soc. Am. vol. 97, pp. 1510-1521, 1995   DOI   ScienceOn