DocumentCode
2002857
Title
Ultrasound-inducible fluorescent particles for internal tattooing
Author
Couture, O. ; Pannacci, N. ; Babataheri, A. ; Tabeling, P. ; Fink, M. ; Tanter, M. ; Servois, Vincent
Author_Institution
Inst. Langevin Ondes et Images, Ecole Super. de Phys. et de Chimie Ind., Paris, France
fYear
2009
fDate
20-23 Sept. 2009
Firstpage
85
Lastpage
88
Abstract
Our objective is to selectively and non-invasively deposits markers under image guidance for internal tattooing. This study describes the production of ultrasound-inducible particles carrying large payloads of fluorescent markers and the in vivo proof of concept of their remote deposit via focused ultrasound. The particles are double emulsions produced in a microfluidic system, consisting of aqueous fluorescein in perfluorocarbon in water. The vaporization threshold of these particles is measured with a 2.25 MHz transducer focused in an Opticell plate and observed under an inverted fluorescence microscope. The composite particles are monodisperse with a diameter of 5 microns. Fluorescein-containing water represents about 70% of the particles content and they are stable for weeks. When submitted to 2.25 MHz pulses, the particles vaporize at 4 MPa peak-negative pressure. During disruption, jets of fluorescein are generated. After several seconds, a brightly fluorescent dot (0.5 mm diameter) is observed at the focus of the transducer. Experiments in the chorioallantoique membrane of chicken eggs demonstrate that sufficient fluorescein can be released allows the observation by the naked eye. This localized internal tattooing could help surgeons identify tissue previously highlighted under image guidance.
Keywords
biomedical optical imaging; biomedical ultrasonics; fluorescence; microfluidics; optical microscopy; photoacoustic effect; surgery; Opticell plate; aqueous fluorescein; double emulsions; fluorescein-containing water; fluorescent markers; focused ultrasound; frequency 2.25 MHz; image guidance; internal tattooing; inverted fluorescence microscope; microfluidic system; perfluorocarbon; surgeons; ultrasound-inducible fluorescent particles; vaporization threshold; Fluorescence; Focusing; In vivo; Microfluidics; Particle measurements; Particle production; Payloads; Ultrasonic imaging; Ultrasonic transducers; Ultrasonic variables measurement; Sonoporation; fluorescein; registration; surgery; ultrasound;
fLanguage
English
Publisher
ieee
Conference_Titel
Ultrasonics Symposium (IUS), 2009 IEEE International
Conference_Location
Rome
ISSN
1948-5719
Print_ISBN
978-1-4244-4389-5
Electronic_ISBN
1948-5719
Type
conf
DOI
10.1109/ULTSYM.2009.5441918
Filename
5441918
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