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Optimized production and stability of oxygen microbubbles

Summary
Lead Inventors: Mark A. Borden, Ph.D.Problem or Unmet Need:Delivering oxygen locally to tissue is important for promoting would healing, treating stroke, enhancing the therapeutic index of radiation therapy and many other applications. Microbubbles are an attractive alternative for fast, non-invasive, intravenous delivery of oxygen. However, current techniques cannot continuously produce oxygen microbubbles at a large scale. This technology presents a method to construct an apparatus and the unique procedure used to continuously generate and accumulate oxygen microbubbles. The apparatus consists of an oxygen source, a lipid source, a pump drive for delivering lipid to the reaction chamber, two large flotation columns, a water cooler to keep the system at a constant temperature, and a sonicator, which produces microbubbles of approximately 2-5 micrometers in diameter. To separate large bubbles from microbubbles, the collection of products from the sonicator are directed into a long flotation column, in which larger bubbles rise to the top and smaller bubbles rise slowly in suspension. The bubbles are removed by syringe and concentrated in a centrifuge to cake form. The bubbles are transferred into glass bottles using a technique requiring three small needles: one for injecting microbubbles into the bottle, another for directing oxygen so the bubbles remain in an oxygenated environment, and the last for venting to maintain pressure equilibrium.
Technology Benefits
This technology offers an effective method of continuously producing and storing microbubbles at a large scale. Having large quantities of microbubbles in stock saves time when several tests need to be performed. The sizes of the microbubbles generated tend to be predominantly 2-5 microns in diameter, a size range favorable for biomedical use.
Technology Application
This technology is useful for efficient, large scale production of microbubbles This technology can be adapted for the mass production of different types of microbubbles (different sizes, gases encapsulated, etc) for different biomedical uses This technology enables methods to concentrate, store and evaluate microbubbles stability
Detailed Technology Description
This technology presents a method to construct an apparatus and the unique procedure used to continuously generate and accumulate oxygen microbubbles. The apparatus consists of an oxygen source, a lipid source, a pump drive for delivering lipid...
*Abstract
None
*Inquiry
Jullian Jones Columbia Technology Ventures Tel: (212) 854-8444 Email: TechTransfer@columbia.edu
*IR
M10-021
*Principal Investigator
Country/Region
USA

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