Improving performance of nanoscale ultrasound contrast agents using N,N-diethylacrylamide stabilization

Reshani H. Perera; Hanping Wu; Pubudu Peiris; Christopher Hernandez; Alan Burke; Helen Zhang; Agata A. Exner

doi:10.1016/j.nano.2016.08.020

Improving performance of nanoscale ultrasound contrast agents using N,N-diethylacrylamide stabilization

Reshani H. Perera, Hanping Wu, Pubudu Peiris, Christopher Hernandez, Alan Burke, Helen Zhang, Agata A. Exner

Research output: Contribution to journal › Article › peer-review

66 Scopus citations

Abstract

The design of nanoscale yet highly echogenic agents for imaging outside of the vasculature and for ultrasound-mediated drug delivery remains a formidable challenge. We have previously reported on formulation of echogenic perfluoropropane gas nanobubbles stabilized by a lipid-pluronic surfactant shell. In the current work we describe the development of a new generation of these nanoparticles which consist of perfluoropropane gas stabilized by a surfactant and lipid membrane and a crosslinked network of N,N-diethylacrylamide. The resulting crosslinked nanobubbles (CL-PEG-NB) were 95.2 ± 25.2 nm in diameter and showed significant improvement in stability and retention of echogenic signal over 24 h. In vivo analysis via ultrasound and fluorescence mediated tomography showed greater tumor extravasation and accumulation with CL-PEG-NB compared to microbubbles. Together these results demonstrate the capabilities and advantages of a new, more stable, nanometer-scale ultrasound contrast agent that can be utilized in future work for diagnostic scans and molecular imaging.

Original language	English (US)
Pages (from-to)	59-67
Number of pages	9
Journal	Nanomedicine: Nanotechnology, Biology, and Medicine
Volume	13
Issue number	1
DOIs	https://doi.org/10.1016/j.nano.2016.08.020
State	Published - Jan 1 2017
Externally published	Yes

Keywords

Cancer
Extravasation
Microbubble
Nanobubble
Ultrasound contrast agent

ASJC Scopus subject areas

Bioengineering
Medicine (miscellaneous)
Molecular Medicine
Biomedical Engineering
General Materials Science
Pharmaceutical Science

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

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10.1016/j.nano.2016.08.020

Cite this

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abstract = "The design of nanoscale yet highly echogenic agents for imaging outside of the vasculature and for ultrasound-mediated drug delivery remains a formidable challenge. We have previously reported on formulation of echogenic perfluoropropane gas nanobubbles stabilized by a lipid-pluronic surfactant shell. In the current work we describe the development of a new generation of these nanoparticles which consist of perfluoropropane gas stabilized by a surfactant and lipid membrane and a crosslinked network of N,N-diethylacrylamide. The resulting crosslinked nanobubbles (CL-PEG-NB) were 95.2 ± 25.2 nm in diameter and showed significant improvement in stability and retention of echogenic signal over 24 h. In vivo analysis via ultrasound and fluorescence mediated tomography showed greater tumor extravasation and accumulation with CL-PEG-NB compared to microbubbles. Together these results demonstrate the capabilities and advantages of a new, more stable, nanometer-scale ultrasound contrast agent that can be utilized in future work for diagnostic scans and molecular imaging.",

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AU - Perera, Reshani H.

AU - Wu, Hanping

AU - Peiris, Pubudu

AU - Hernandez, Christopher

AU - Burke, Alan

AU - Zhang, Helen

AU - Exner, Agata A.

PY - 2017/1/1

Y1 - 2017/1/1

N2 - The design of nanoscale yet highly echogenic agents for imaging outside of the vasculature and for ultrasound-mediated drug delivery remains a formidable challenge. We have previously reported on formulation of echogenic perfluoropropane gas nanobubbles stabilized by a lipid-pluronic surfactant shell. In the current work we describe the development of a new generation of these nanoparticles which consist of perfluoropropane gas stabilized by a surfactant and lipid membrane and a crosslinked network of N,N-diethylacrylamide. The resulting crosslinked nanobubbles (CL-PEG-NB) were 95.2 ± 25.2 nm in diameter and showed significant improvement in stability and retention of echogenic signal over 24 h. In vivo analysis via ultrasound and fluorescence mediated tomography showed greater tumor extravasation and accumulation with CL-PEG-NB compared to microbubbles. Together these results demonstrate the capabilities and advantages of a new, more stable, nanometer-scale ultrasound contrast agent that can be utilized in future work for diagnostic scans and molecular imaging.

AB - The design of nanoscale yet highly echogenic agents for imaging outside of the vasculature and for ultrasound-mediated drug delivery remains a formidable challenge. We have previously reported on formulation of echogenic perfluoropropane gas nanobubbles stabilized by a lipid-pluronic surfactant shell. In the current work we describe the development of a new generation of these nanoparticles which consist of perfluoropropane gas stabilized by a surfactant and lipid membrane and a crosslinked network of N,N-diethylacrylamide. The resulting crosslinked nanobubbles (CL-PEG-NB) were 95.2 ± 25.2 nm in diameter and showed significant improvement in stability and retention of echogenic signal over 24 h. In vivo analysis via ultrasound and fluorescence mediated tomography showed greater tumor extravasation and accumulation with CL-PEG-NB compared to microbubbles. Together these results demonstrate the capabilities and advantages of a new, more stable, nanometer-scale ultrasound contrast agent that can be utilized in future work for diagnostic scans and molecular imaging.

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KW - Extravasation

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KW - Nanobubble

KW - Ultrasound contrast agent

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Improving performance of nanoscale ultrasound contrast agents using N,N-diethylacrylamide stabilization

Abstract

Keywords

ASJC Scopus subject areas

UN SDGs

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