Mengjiao Liu scite author profile

Microbubbles (MB) are routinely used as contrast agents for ultrasound (US) imaging. We describe different types of targeted and drug-loaded poly(n-butyl cyanoacrylate) (PBCA) MB, and demonstrate their suitability for multiple biomedical applications, including molecular US imaging and US-mediated drug delivery. Molecular imaging of angiogenic tumor blood vessels and inflamed atherosclerotic endothelium is performed by modifying the surface of PBCA MB with peptides and antibodies recognizing E-selectin and VCAM-1. Stable and inertial cavitation of PBCA MB enables sonoporation and permeabilization of blood vessels in tumors and in the brain, which can be employed for direct and indirect drug delivery. Direct drug delivery is based on USinduced release of (model) drug molecules from the MB shell. Indirect drug delivery refers to USand MB-mediated enhancement of extravasation and penetration of co-administered drugs and drug delivery systems. These findings are in line with recently reported pioneering proof-ofprinciple studies showing the usefulness of (phospholipid) MB for molecular US imaging and sonoporation-enhanced drug delivery in patients. They aim to exemplify the potential and the broad applicability of combining MB with US to improve disease diagnosis and therapy.

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Drug Loading in Poly(butyl cyanoacrylate)-Based Polymeric Microbubbles

Liu

Dasgupta

Koczera

et al. 2020

Mol. Pharmaceutics

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Microbubbles (MB) are routinely used ultrasound (US) contrast agents that have recently attracted increasing attention as stimuli-responsive drug delivery systems. In order to better understand MB-based drug delivery, we studied the role of drug hydrophobicity and molecular weight on MB loading, shelf-life stability, US properties and drug release. Eight model drugs, varying in hydrophobicity and molecular weight, were loaded into the shell of poly(butyl cyanoacrylate) (PBCA) MB. In the case of drugs with progesterone as a common structural backbone (i.e. for corticosteroids), loading capacity and drug release correlated well with hydrophobicity and molecular weight. Conversely, when employing drugs with no structural similarity (i.e. four different fluorescent dyes), loading capacity and release did not correlate with hydrophobicity and molecular weight. All model drug-loaded MB formulations could be equally efficiently destroyed upon exposure to US. Together, these findings provide valuable insights on how the physicochemical properties of (model) drug molecules affect their loading and retention in and US-induced release from polymeric MB, thereby facilitating the development of drug-loaded MB formulations for US-triggered drug delivery.

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Nonspherical ultrasound microbubbles

Dasgupta

Sun

Palomba

et al. 2023

Proc. Natl. Acad. Sci. U.S.A.

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Surface tension provides microbubbles (MB) with a perfect spherical shape. Here, we demonstrate that MB can be engineered to be nonspherical, endowing them with unique features for biomedical applications. Anisotropic MB were generated via one-dimensionally stretching spherical poly(butyl cyanoacrylate) MB above their glass transition temperature. Compared to their spherical counterparts, nonspherical polymeric MB displayed superior performance in multiple ways, including i) increased margination behavior in blood vessel–like flow chambers, ii) reduced macrophage uptake in vitro, iii) prolonged circulation time in vivo, and iv) enhanced blood–brain barrier (BBB) permeation in vivo upon combination with transcranial focused ultrasound (FUS). Our studies identify shape as a design parameter in the MB landscape, and they provide a rational and robust framework for further exploring the application of anisotropic MB for ultrasound-enhanced drug delivery and imaging applications.

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A Computational and Experimental Study to Develop E-Selectin Targeted Peptides for Molecular Imaging Applications

et al. 2018

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Aim: E-selectin is overexpressed on angiogenic and inflamed endothelium. Molecules binding to E-selectin with high affinity and specificity enable its use as a molecular imaging biomarker. Material & methods: The interactions of four different peptides (i.e., Ac-P1 [Acetyl-IELLQAR-CONH2], H2N-P2 [H2N-DITWDQLWDLMK-CONH2], H2N-P3A5 [H2N-YRNWAGRW-CONH2], and Ac-P4 [Acetyl-YRNWDGRW-CONH2]) with E-selectin were analyzed by computational methodologies, surface plasmon resonance and in vitro using activated human umbilical vein endothelial cells. Poly(butyl cyanoacrylate) microbubbles were functionalized with the best candidates and evaluated as molecular ultrasound probes in cultured cells and explanted carotid arteries. Results: H2N-P3A5 and Ac-P4 peptides bound stronger to E-selectin than Ac-P1 and H2N-P2, but with lower specificity. H2N-P2 bound with higher specificity and affinity than Ac-P1. Conclusion: H2N-P2 is a good candidate for designing E-selectin-targeted molecular imaging agents.

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Mengjiao Liu

PBCA-based polymeric microbubbles for molecular imaging and drug delivery

Drug Loading in Poly(butyl cyanoacrylate)-Based Polymeric Microbubbles

Nonspherical ultrasound microbubbles

A Computational and Experimental Study to Develop E-Selectin Targeted Peptides for Molecular Imaging Applications

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