High Speed Optical Observations and Simulation Results of Lipid Based Microbubbles at Low Insonation Pressures

K. Chetty; C. A. Sennoga; J. V. Hajnal; R. J. Eckersley; E. Stride; Robert Eckersley

High Speed Optical Observations and Simulation Results of Lipid Based Microbubbles at Low Insonation Pressures

K. Chetty^*, C. A. Sennoga, J. V. Hajnal, R. J. Eckersley, E. Stride, Robert Eckersley

^*Corresponding author for this work

Biomedical Engineering Department

Imperial College London

Research output: Chapter in Book/Report/Conference proceeding › Conference paper

14 Citations (Scopus)

Abstract

In this investigation, a high speed camera was used to measure the radial oscillations of the commercial contrast agent SonoVue (TM) and in-house microbubble preparations of differing lipid compositions at low insonation pressures. It was found that a significant proportion (similar to 75%) of the microbubbles shrank during insonation, possibly due to gas diffusion and/or excess lipid shedding. Microbubble shrinkage was found to be dependant on excitation pressure and was seen to increase for bubble sizes close to their resonance frequency. The elasticity shell parameter (G(s)) in a modified nonlinear Rayleigh-Plesset (RP) model was tuned in order to fit its response to the measured oscillations (before shrinkage). It was found that, for SonoVue (TM) the shell elasticity varies proportionally to the initial microbubble diameter, suggesting that it is not a bulk property of the material as previously assumed. It was also determined that for cases where the bubble shrinks, the shell elasticity parameter decreases. As a result of this, the RP model was adapted to take into account the changing elasticity of the bubbles and give a good fit to the data.

Original language	English
Title of host publication	2006 IEEE ULTRASONICS SYMPOSIUM, VOLS 1-5, PROCEEDINGS
Place of Publication	NEW YORK
Publisher	IEEE
Pages	1354-1357
Number of pages	4
ISBN (Print)	978-1-4244-0201-4
Publication status	Published - 2006
Event	IEEE Ultrasonics Symposium - Vancouver, Canada Duration: 3 Oct 2006 → 6 Oct 2006

Publication series

Name	ULTRASONICS SYMPOSIUM
Publisher	IEEE
ISSN (Print)	1051-0117

Conference

Conference	IEEE Ultrasonics Symposium
Country/Territory	Canada
Period	3/10/2006 → 6/10/2006

Keywords

Contrast Agents
Microbubble Characterization
High Speed Camera
Modified Rayleigh-Plesset model
BUBBLE-SIZE
OSCILLATIONS
DESTRUCTION
SHELL

Cite this

@inbook{58e08e8b0e334fcf9205dfd3e9dc4d85,

title = "High Speed Optical Observations and Simulation Results of Lipid Based Microbubbles at Low Insonation Pressures",

abstract = "In this investigation, a high speed camera was used to measure the radial oscillations of the commercial contrast agent SonoVue (TM) and in-house microbubble preparations of differing lipid compositions at low insonation pressures. It was found that a significant proportion (similar to 75%) of the microbubbles shrank during insonation, possibly due to gas diffusion and/or excess lipid shedding. Microbubble shrinkage was found to be dependant on excitation pressure and was seen to increase for bubble sizes close to their resonance frequency. The elasticity shell parameter (G(s)) in a modified nonlinear Rayleigh-Plesset (RP) model was tuned in order to fit its response to the measured oscillations (before shrinkage). It was found that, for SonoVue (TM) the shell elasticity varies proportionally to the initial microbubble diameter, suggesting that it is not a bulk property of the material as previously assumed. It was also determined that for cases where the bubble shrinks, the shell elasticity parameter decreases. As a result of this, the RP model was adapted to take into account the changing elasticity of the bubbles and give a good fit to the data.",

keywords = "Contrast Agents, Microbubble Characterization, High Speed Camera, Modified Rayleigh-Plesset model, BUBBLE-SIZE, OSCILLATIONS, DESTRUCTION, SHELL",

author = "K. Chetty and Sennoga, {C. A.} and Hajnal, {J. V.} and Eckersley, {R. J.} and E. Stride and Robert Eckersley",

year = "2006",

language = "English",

isbn = "978-1-4244-0201-4",

series = "ULTRASONICS SYMPOSIUM",

publisher = "IEEE",

pages = "1354--1357",

booktitle = "2006 IEEE ULTRASONICS SYMPOSIUM, VOLS 1-5, PROCEEDINGS",

note = "IEEE Ultrasonics Symposium ; Conference date: 03-10-2006 Through 06-10-2006",

}

TY - CHAP

T1 - High Speed Optical Observations and Simulation Results of Lipid Based Microbubbles at Low Insonation Pressures

AU - Chetty, K.

AU - Sennoga, C. A.

AU - Hajnal, J. V.

AU - Eckersley, R. J.

AU - Stride, E.

AU - Eckersley, Robert

PY - 2006

Y1 - 2006

N2 - In this investigation, a high speed camera was used to measure the radial oscillations of the commercial contrast agent SonoVue (TM) and in-house microbubble preparations of differing lipid compositions at low insonation pressures. It was found that a significant proportion (similar to 75%) of the microbubbles shrank during insonation, possibly due to gas diffusion and/or excess lipid shedding. Microbubble shrinkage was found to be dependant on excitation pressure and was seen to increase for bubble sizes close to their resonance frequency. The elasticity shell parameter (G(s)) in a modified nonlinear Rayleigh-Plesset (RP) model was tuned in order to fit its response to the measured oscillations (before shrinkage). It was found that, for SonoVue (TM) the shell elasticity varies proportionally to the initial microbubble diameter, suggesting that it is not a bulk property of the material as previously assumed. It was also determined that for cases where the bubble shrinks, the shell elasticity parameter decreases. As a result of this, the RP model was adapted to take into account the changing elasticity of the bubbles and give a good fit to the data.

AB - In this investigation, a high speed camera was used to measure the radial oscillations of the commercial contrast agent SonoVue (TM) and in-house microbubble preparations of differing lipid compositions at low insonation pressures. It was found that a significant proportion (similar to 75%) of the microbubbles shrank during insonation, possibly due to gas diffusion and/or excess lipid shedding. Microbubble shrinkage was found to be dependant on excitation pressure and was seen to increase for bubble sizes close to their resonance frequency. The elasticity shell parameter (G(s)) in a modified nonlinear Rayleigh-Plesset (RP) model was tuned in order to fit its response to the measured oscillations (before shrinkage). It was found that, for SonoVue (TM) the shell elasticity varies proportionally to the initial microbubble diameter, suggesting that it is not a bulk property of the material as previously assumed. It was also determined that for cases where the bubble shrinks, the shell elasticity parameter decreases. As a result of this, the RP model was adapted to take into account the changing elasticity of the bubbles and give a good fit to the data.

KW - Contrast Agents

KW - Microbubble Characterization

KW - High Speed Camera

KW - Modified Rayleigh-Plesset model

KW - BUBBLE-SIZE

KW - OSCILLATIONS

KW - DESTRUCTION

KW - SHELL

M3 - Conference paper

SN - 978-1-4244-0201-4

T3 - ULTRASONICS SYMPOSIUM

SP - 1354

EP - 1357

BT - 2006 IEEE ULTRASONICS SYMPOSIUM, VOLS 1-5, PROCEEDINGS

PB - IEEE

CY - NEW YORK

T2 - IEEE Ultrasonics Symposium

Y2 - 3 October 2006 through 6 October 2006

ER -

High Speed Optical Observations and Simulation Results of Lipid Based Microbubbles at Low Insonation Pressures

Abstract

Publication series

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Keywords

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