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2015 | 127 | 1 | 99-102
Article title

Acoustically Active Antibubbles

Content
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Languages of publication
EN
Abstracts
EN
In this study, we analyse the behaviour of antibubbles when subjected to an ultrasonic pulse. Specifically, we derive oscillating behaviour of acoustic antibubbles with a negligible outer shell, resulting in a Rayleigh-Plesset equation of antibubble dynamics. Furthermore, we compare theoretical behaviour of antibubbles to behaviour of regular gas bubbles. We conclude that antibubbles and regular bubbles respond to an acoustic wave in a very similar manner if the antibubble's liquid core radius is less than half the antibubble radius. For larger cores, antibubbles demonstrate highly harmonic behaviour, which would make them suitable vehicles in ultrasonic imaging and ultrasound-guided drug delivery.
Keywords
EN
Publisher

Year
Volume
127
Issue
1
Pages
99-102
Physical description
Dates
published
2015-01
Contributors
author
  • National Centre for Ultrasound in Gastroenterology, Haukeland University Hospital, Jonas Lies vei 65, 5021 Bergen, Norway
  • Department of Physics and Technology, University of Bergen, Allégaten 55, 5007 Bergen, Norway
author
  • Department of Physics and Technology, University of Bergen, Allégaten 55, 5007 Bergen, Norway
author
  • National Centre for Ultrasound in Gastroenterology, Haukeland University Hospital, Jonas Lies vei 65, 5021 Bergen, Norway
  • Department of Clinical Medicine, University of Bergen, Jonas Lies vei 65, 5021 Bergen, Norway
author
  • Department of Mechanical Engineering, Eindhoven University of Technology, 5612 AZ Eindhoven, The Netherlands
author
  • Department of Physics and Technology, University of Bergen, Allégaten 55, 5007 Bergen, Norway
  • The Michelsen Centre for Industrial Measurement Science and Technology, Fantoftvegen 38, 5892 Bergen, Norway
References
  • [1] EFSUMB - European Course Book, Ed. C.F. Dietrich, EFSUMB, London 2012
  • [2] M. Postema, O.H. Gilja, Curr. Pharm. Biotechnol. 8, 355 (2007), doi: 10.2174/138920107783018453
  • [3] S. Kotopoulis, A. Delalande, M. Popa, V. Mamaeva, G. Dimcevski, O.H. Gilja, M. Postema, B.T. Gjertsen, E. Mc Cormack, Mol. Imag. Biol. 16, 52 (2014), doi: 10.1007/s11307-013-0672-5
  • [4] S. Kotopoulis, G. Dimcevski, O.H. Gilja, D. Hoem, M. Postema, Med. Phys. 40, 072902 (2013), doi: 10.1118/1.4808149
  • [5] M. Postema, O.H. Gilja, World J. Gastroenterol. 17, 28 (2011), doi: 10.3748/wjg.v17.i1.28
  • [6] D.J. May, J.S. Allen, K.W. Ferrara, IEEE Trans. Ultrason. Ferroelectr. Freq. Control 49, 1400 (2002), doi: 10.1109/TUFFC.2002.1041081
  • [7] M.J. Shortencarier, P.A. Dayton, S.H. Bloch, P.A. Schumann, T.O. Matsunaga, F.W. Ferrara, IEEE Trans. Ultrason. Ferroelectr. Freq. Control 51, 822 (2004), doi: 10.1109/TUFFC.2004.1320741
  • [8] M. Postema, F.J. ten Cate, G. Schmitz, N. de Jong, A. van Wamel, Lett. Drug Des. Discov. 4, 74 (2007), doi: 10.2174/157018007778992847
  • [9] A.T. Poortinga, Langmuir 27, 2138 (2011), doi: 10.1021/la1048419
  • [10] J.E. Silpe, J.K. Nunes, A.T. Poortinga, H.A. Stone, Langmuir 29, 8782 (2013), doi: 10.1021/la4009015
  • [11] M. Postema, Fundamentals of Medical Ultrasonics, Spon Press, New York 2011
Document Type
Publication order reference
Identifiers
YADDA identifier
bwmeta1.element.bwnjournal-article-appv127n127kz
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