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Methods of preparing targeted microbubble shells

Summary: Lead Inventors: Mark Borden, Ph.D.; Cherry ChenProblem or Unmet Need:A microbubble is a gaseous colloidal particle with diameter less than 10 um, of which the surface comprises amphiphilic phospholipids self-assembled to form a lipid monolayer shell. Due to the compressible gas core, microbubbles provide a sensitive acoustic response. They serve as echo contrast agents for ultrasound imaging, as drug delivery vehicles for targeted therapy, and as gas carriers for blood oxygenation. Designing and engineering non-immunogenic, ultrasound-triggered microbubbles for targeting is critical to expand the utility and scope of these applications. This invention presents a new way of fabricating a buried-ligand architecture (BLA) where the microbubble surface was coated with a bimodal poly(ethylene glycol) (PEG) brush following microbubble fabrication, purification and size selection. It has been shown, for the first time, streptavidin-induced surface structure formation, leading to escess surface area that may be useful to enhanding ligand-receptor mediated adhesion for targeting applications. This invention demonstrates the feasibility of post-labeling for smallmolecule ligands to BLA microbubbles to generate stealth targeted ultrasound contrast agents.

Technology Benefits: Specifically makes microbubbles shells with the buried ligand architecture Uses avidin/biotin biding to create excess surface area on the microbubbles Provides a means of quantifying the percentage of microbubbles with surface structures Safety, economy, ease of manufacture, quality of product, quality of performance

Technology Application: Ultrasound molecular imaging Imaging with other modalities Targeted drug delivery Targeted gene delivery Targeted gas delivery Targeted therapy

Detailed Technology Description: This invention presents a new way of fabricating a buried-ligand architecture (BLA) where the microbubble surface was coated with a bimodal poly(ethylene glycol) (PEG) brush following microbubble fabrication, purification and size selection. It...

*Abstract: None

*Inquiry: Jullian Jones Columbia Technology Ventures Tel: (212) 854-8444 Email: TechTransfer@columbia.edu

*IR: M10-094

*Principal Investigator

*Publications: Borden MA, Sarantos MR, Stieger SM, Simon SI, Ferrara KW, Dayton PA. (2006). Ultrasound radiation force modulates ligand availability on ultrasound contrast agents. Molecular Imaging, 5(3):139-147Borden MA, Zhang H, Gillies RJ, Dayton PA, Ferrara KW. (2008). A stimulus-responsive contrast agent for ultrasound molecular imaging. Biomaterials, 29:597-606.

Country/Region: USA

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