Simultaneous optical and acoustical observations of contrast agents

Author

Dayton, P. ; Morgan, K. ; Allietta, M. ; Klibanov, A. ; Brandenburger, G. ; Ferrara, Katherine

Author_Institution

Dept. of Biomed. Eng., Virginia Univ., Charlottesville, VA, USA

Volume

2

fYear

1997

fDate

5-8 Oct 1997

Firstpage

1583

Abstract

The increasing interest in the use of encapsulated microbubbles for ultrasound contrast agents and drug delivery mechanisms requires an understanding of the insonified microbubble on a microscopic scale. With the use of a video microscopy system coupled to either a microscopic ultrasound flow phantom or a chamber for insonifying stationary bubbles, the authors show that ultrasound has significant effects on encapsulated microbubbles. A train of ultrasound pulses can alter the structure of an albumin-shelled bubble or instigate various mechanisms of bubble destruction. Ultrasonic transmission also produces a primary radiation force which can displace contrast agents with each acoustic pulse, and the authors demonstrate this in-vivo as well as in-vitro. Secondary radiation force is shown to cause changes in effective scatterer size, echo characteristics, and persistence

Keywords

biomedical ultrasonics; bubbles; drug delivery systems; optical microscopy; ultrasonic effects; ultrasonic transmission; albumin-shelled bubble; bubble destruction; drug delivery mechanisms; echo characteristics; effective scatterer size; encapsulated microbubbles; secondary radiation force; ultrasound contrast agents; ultrasound pulses train; Acoustic pulses; Acoustic scattering; Biomedical optical imaging; Drug delivery; Frequency; Imaging phantoms; In vitro; Microscopy; Optical scattering; Ultrasonic imaging;

fLanguage

English

Publisher

ieee

Conference_Titel

Ultrasonics Symposium, 1997. Proceedings., 1997 IEEE

Conference_Location

Toronto, Ont.

ISSN

1051-0117

Print_ISBN

0-7803-4153-8

Type

conf

DOI

10.1109/ULTSYM.1997.663299

Filename

663299