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The role of cavitation in acoustically activated drug delivery

Husseini, Ghaleb
Diaz de la Rosa, Mario A.
Richardson, Eric S.
Christensen, Douglas A.
Pitt, William G.
Date
2005
Author
Husseini, Ghaleb
Diaz de la Rosa, Mario A.
Richardson, Eric S.
Christensen, Douglas A.
Pitt, William G.
Advisor
Type
Peer-Reviewed
Article
Postprint
Degree
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Description
Abstract
Pluronic P105 micelles are potential candidates as chemotherapy drug delivery vehicles using ultrasonic stimulation as a release trigger. Acoustic power has been previously shown to release two anthracycline agents from these polymeric carriers. In this study, an ultrasonic exposure chamber with fluorescence detection was used to examine the mechanism of doxorubicin release from P105 micelles. Acoustic spectra were collected and analyzed, at the same spatial position as fluorescence data, to probe the role of cavitation in drug release. Our study showed a strong correlation between percent drug release and subharmonic acoustic emissions, and we attribute the drug release to collapse cavitation that perturbs the structure of the micelle and releases drug.
DSpace URI
http://hdl.handle.net/11073/21270
External URI
https://doi.org/10.1016/j.jconrel.2005.06.015
Collections
Department of Chemical and Biological Engineering
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