Characterization of Brain-Targeted Drug Delivery Enhanced by a Combination of Lipid-Based Microbubbles and Non-Focused Ultrasound

The combination of focused ultrasound (FUS) and microbubbles, an ultrasound (US) contrast agent, has attracted much attention for its ability to open the blood brain barrier (BBB) and deliver drugs to the brain parenchyma. FUS can concentrate US energy in a restricted space, whereas non-focused US c...

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Veröffentlicht in:Journal of pharmaceutical sciences 2020-09, Vol.109 (9), p.2827-2835
Hauptverfasser: Omata, Daiki, Hagiwara, Fumiko, Munakata, Lisa, Shima, Tadamitsu, Kageyama, Saori, Suzuki, Yuno, Azuma, Takashi, Takagi, Shu, Seki, Kazuhiko, Maruyama, Kazuo, Suzuki, Ryo
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Sprache:eng
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Zusammenfassung:The combination of focused ultrasound (FUS) and microbubbles, an ultrasound (US) contrast agent, has attracted much attention for its ability to open the blood brain barrier (BBB) and deliver drugs to the brain parenchyma. FUS can concentrate US energy in a restricted space, whereas non-focused US can affect a wide area of tissue. Non-focused US is also promising for drug delivery to the brain and other tissues. We have previously developed lipid-based microbubbles (LBs), and demonstrated that non-focused US and LBs have potential for drug delivery to tumor tissues. In this study, to achieve efficient and safe brain-targeted drug delivery, we evaluated the characteristics of BBB opening using non-focused US and LBs. Our results indicated that LBs could induce BBB opening with non-focused US. US frequency and intensity affected the efficiency of BBB opening and brain damage, and showed that the dose of LBs was also related to the efficiency of BBB opening. Furthermore, the combination of non-focused US and LBs could deliver macromolecules at 2000 kDa to the brain, and the induction of BBB opening was found to be reversible. These results suggest that the combination of non-focused US and LBs has potential as a brain-targeted drug delivery system.
ISSN:0022-3549
1520-6017
DOI:10.1016/j.xphs.2020.06.008