Title :
Investigation of effectiveness of microbubble stable cavitation in thrombolysis
Author :
Shi, William T. ; Gao, Shunji ; Vignon, Francois ; Powers, Jeff E. ; Drvol, Lucas ; Jung, Ki Won ; Xie, Feng ; Lof, John ; Everbach, E. Carr ; Porter, Thomas R.
Author_Institution :
Philips Res. North America, Briarcliff Manor, NY, USA
Abstract :
Ultrasound and intravenous microbubbles have been used in recanalizing intravascular thrombi which cause ischemic stroke, myocardial infarction, and other vascular thromboembolic events. In previous studies, inertial cavitation (IC) produced by high mechanical index (MI) ultrasound has been shown to be effective in dissolving acute thrombi. However, IC is more likely to cause adverse bioeffects than stable cavitation (SC). This study indicates that SC induced by intermediate MI ultrasound (1.6 MHz, 0.35 MI, 50 cycles) is as effective for acute thrombus dissolution as IC by high MI ultrasound (1.6 MHz, 1.1 MI, 2.5 cycles).
Keywords :
biomedical materials; blood vessels; bubbles; cavitation; diseases; microfluidics; nonlinear acoustics; ultrasonic therapy; acute thrombi dissolution; acute thrombus dissolution; frequency 1.6 MHz; high mechanical index ultrasound; inertial cavitation; intermediate MI ultrasound; intravascular thrombi recanalisation; intravenous microbubbles; ischemic stroke; microbubble stable cavitation effectiveness; myocardial infarction; thrombolysis; ultrasound microbubbles; vascular thromboembolic events; Acoustics; Gray-scale; Image color analysis; Imaging; In vitro; Integrated circuits; Ultrasonic imaging; microbubbles; sonothrombolysis; ultrasound therapy;
Conference_Titel :
Ultrasonics Symposium (IUS), 2010 IEEE
Conference_Location :
San Diego, CA
Print_ISBN :
978-1-4577-0382-9
DOI :
10.1109/ULTSYM.2010.5935628
