Bart Geers scite author profile

Drug delivery with microbubbles and ultrasound is gaining more and more attention in the drug delivery field due to its noninvasiveness, local applicability, and proven safety in ultrasonic imaging techniques. In this article, we tried to improve the cytotoxicity of doxorubicin (DOX)-containing liposomes by preparing DOX-liposome-containing microbubbles for drug delivery with therapeutic ultrasound. In this way, the DOX release and uptake can be restricted to ultrasound-treated areas. Compared to DOX-liposomes, DOX-loaded microbubbles killed at least two times more melanoma cells after exposure to ultrasound. After treatment of the melanoma cells with DOX-liposome-loaded microbubbles and ultrasound, DOX was mainly present in the nuclei of the cancer cells, whereas it was mainly detected in the cytoplasm of cells treated with DOX-liposomes. Exposure of cells to DOX-liposome-loaded microbubbles and ultrasound caused an almost instantaneous cellular entry of the DOX. At least two mechanisms were identified that explain the fast uptake of DOX and the superior cell killing of DOX-liposome-loaded microbubbles and ultrasound. First, exposure of DOX-liposome-loaded microbubbles to ultrasound results in the release of free DOX that is more cytotoxic than DOX-liposomes. Second, the cellular entry of the released DOX is facilitated due to sonoporation of the cell membranes. The in vitro results shown in this article indicate that DOX-liposome-loaded microbubbles could be a very interesting tool to obtain an efficient ultrasound-controlled DOX delivery in vivo.

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Self-assembled liposome-loaded microbubbles: The missing link for safe and efficient ultrasound triggered drug-delivery

Geers

Lentacker

Sanders

et al. 2011

Journal of Controlled Release

147

132

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Doxorubicin liposome-loaded microbubbles for contrast imaging and ultrasound-triggered drug delivery

Escoffre

Mannaris

Geers

et al. 2013

IEEE Trans. Ultrason., Ferroelect., Freq. Contr.

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Targeted drug delivery under image guidance is gaining more interest in the drug-delivery field. The use of microbubbles as contrast agents in diagnostic ultrasound provides new opportunities in noninvasive image-guided drug delivery. In the present study, the imaging and therapeutic properties of novel doxorubicin liposome-loaded microbubbles are evaluated. The results showed that at scanning settings (1.7 MHz and mechanical index 0.2), these microbubbles scatter sufficient signal for nonlinear ultrasound imaging and can thus be imaged in real time and be tracked in vivo. In vitro therapeutic evaluation showed that ultrasound at 1 MHz and pressures up to 600 kPa in combination with the doxorubicin liposomeloaded microbubbles induced 4-fold decrease of cell viability compared with treatment with free doxorubicin or doxorubicin liposome-loaded microbubbles alone. The therapeutic effectiveness is correlated to an ultrasound-triggered release of doxorubicin from the liposomes and an enhanced uptake of the free doxorubicin by glioblastoma cells. The results obtained demonstrate that the combination of ultrasound and the doxorubicin liposome-loaded microbubbles can provide a new method of noninvasive image-guided drug delivery.

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Crucial factors and emerging concepts in ultrasound-triggered drug delivery

Geers

Dewitte

Smedt

et al. 2012

Journal of Controlled Release

111

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Coupling of drug containing liposomes to microbubbles improves ultrasound triggered drug delivery in mice

Cool¹,

Geers²,

Roels³

et al. 2013

Journal of Controlled Release

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Bart Geers

Design and Evaluation of Doxorubicin-containing Microbubbles for Ultrasound-triggered Doxorubicin Delivery: Cytotoxicity and Mechanisms Involved

Self-assembled liposome-loaded microbubbles: The missing link for safe and efficient ultrasound triggered drug-delivery

Doxorubicin liposome-loaded microbubbles for contrast imaging and ultrasound-triggered drug delivery

Crucial factors and emerging concepts in ultrasound-triggered drug delivery

Coupling of drug containing liposomes to microbubbles improves ultrasound triggered drug delivery in mice

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