Hard shell gas-filled contrast enhancement particles for colour Doppler ultrasound imaging of tumors

H. Paul Martinez; Yuko Kono; Sarah L. Blair; Sergio Sandoval; Jessica Wang-Rodriguez; Robert F. Mattrey; Andrew C. Kummel; William C. Trogler

doi:10.1039/c0md00139b

Hard shell gas-filled contrast enhancement particles for colour Doppler ultrasound imaging of tumors

H. Paul Martinez, Yuko Kono, Sarah L. Blair, Sergio Sandoval, Jessica Wang-Rodriguez, Robert F. Mattrey, Andrew C. Kummel, William C. Trogler

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

81 Scopus citations

Abstract

Hollow hard shell particles of 200 nm and 2 micron diameter with a 10 nm thick porous silica shell have been synthesized using polystyrene templates and a sol-gel process. The template ensures than the hollow particles are monodispersed, while the charged silica surface ensures that they remain suspended in solution for weeks. When filled with perfluorocarbon gas, the particles behave as an efficient contrast agent for colour Doppler ultrasound imaging in human breast tissue. The silica shell provides unique properties compared to conventional soft shell particles employed as ultrasound contrast agents: uniform size control, strong adsorption to tissue and cells immobilizing particles at the tissue injection site, a long imaging lifetime, and a silica surface that can be easily modified with biotargeting ligands or small molecules to adjust the surface charge and polarity.

Original language	English (US)
Pages (from-to)	266-270
Number of pages	5
Journal	MedChemComm
Volume	1
Issue number	4
DOIs	https://doi.org/10.1039/c0md00139b
State	Published - Oct 2010

ASJC Scopus subject areas

Biochemistry
Molecular Medicine
Pharmacology
Pharmaceutical Science
Drug Discovery
Organic Chemistry

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10.1039/c0md00139b

Cite this

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abstract = "Hollow hard shell particles of 200 nm and 2 micron diameter with a 10 nm thick porous silica shell have been synthesized using polystyrene templates and a sol-gel process. The template ensures than the hollow particles are monodispersed, while the charged silica surface ensures that they remain suspended in solution for weeks. When filled with perfluorocarbon gas, the particles behave as an efficient contrast agent for colour Doppler ultrasound imaging in human breast tissue. The silica shell provides unique properties compared to conventional soft shell particles employed as ultrasound contrast agents: uniform size control, strong adsorption to tissue and cells immobilizing particles at the tissue injection site, a long imaging lifetime, and a silica surface that can be easily modified with biotargeting ligands or small molecules to adjust the surface charge and polarity.",

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AU - Martinez, H. Paul

AU - Kono, Yuko

AU - Blair, Sarah L.

AU - Sandoval, Sergio

AU - Wang-Rodriguez, Jessica

AU - Mattrey, Robert F.

AU - Kummel, Andrew C.

AU - Trogler, William C.

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AB - Hollow hard shell particles of 200 nm and 2 micron diameter with a 10 nm thick porous silica shell have been synthesized using polystyrene templates and a sol-gel process. The template ensures than the hollow particles are monodispersed, while the charged silica surface ensures that they remain suspended in solution for weeks. When filled with perfluorocarbon gas, the particles behave as an efficient contrast agent for colour Doppler ultrasound imaging in human breast tissue. The silica shell provides unique properties compared to conventional soft shell particles employed as ultrasound contrast agents: uniform size control, strong adsorption to tissue and cells immobilizing particles at the tissue injection site, a long imaging lifetime, and a silica surface that can be easily modified with biotargeting ligands or small molecules to adjust the surface charge and polarity.

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Hard shell gas-filled contrast enhancement particles for colour Doppler ultrasound imaging of tumors

Abstract

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