Litcius/Paper detail

Asymmetric oscillations of endoskeletal antibubbles

Nobuki Kudo, Rustem Uzbekov, Ryunosuke Matsumoto, Ri-ichiro Shimizu, Craig S. Carlson, Nicole Anderton, Aurélie Deroubaix, Clement Penny, Albert T. Poortinga, David M. Rubin, Ayache Bouakaz, Michiel Postema

2020Japanese Journal of Applied Physics19 citationsDOI

Abstract

Abstract Antibubbles have been under investigation as potential vehicles in ultrasound-guided drug delivery. It is assumed that antibubbles can expand unhampered, but cannot contract beyond the size of their inner core. In this study, this hypothesis was tested on endoskeletal antibubbles and reference bubbles. These were subjected to 3-cycle pulses of 1 MHz ultrasound, whilst being recorded with a high-speed camera operating at 10 million frames per second. At low acoustic amplitudes (200 kPa), antibubbles and bubbles oscillated symmetrically. At high acoustic amplitudes (1.00 MPa), antibubbles and bubbles oscillated asymmetrically, but antibubbles significantly more so than bubbles. Furthermore, fragmentation and core release were observed at these amplitudes. This finding may have implications for ultrasound-guided drug delivery using antibubbles.

Topics & Concepts

AmplitudeUltrasoundCore (optical fiber)AcousticsFragmentation (computing)Materials sciencePhysicsOpticsComputer scienceOperating systemUltrasound and Hyperthermia ApplicationsUltrasound and Cavitation PhenomenaPhotoacoustic and Ultrasonic Imaging