Patents by Inventor Daniel Bowers

Daniel Bowers has filed for patents to protect the following inventions. This listing includes patent applications that are pending as well as patents that have already been granted by the United States Patent and Trademark Office (USPTO).

  • Publication number: 20240325633
    Abstract: Disclosed herein are intravascular artificial pancreas devices and methods for their manufacture.
    Type: Application
    Filed: February 6, 2024
    Publication date: October 3, 2024
    Inventor: Daniel Bowers
  • Patent number: 9874566
    Abstract: To address the need for scaffold-based oxygen concentration monitoring, a single-component, self-referenced oxygen sensor was made into nanofibers. Electrospinning process parameters were tuned to produce a biomaterial scaffold with specific morphological features. The ratio of an oxygen sensitive phosphorescence signal to an oxygen insensitive fluorescence signal was calculated at each image pixel to determine an oxygenation value. A single component boron dye-polymer conjugate was chosen for additional investigation due to improved resistance to degradation in aqueous media compared to a dye polymer blend. Standardization curves show that in fully supplemented media, the fibers are responsive to dissolved oxygen concentrations less than 15 parts per million. Spatial and temporal ratiometric gradients were observed in vitro radiating outward from the center of a dense adherent cell grouping. Sensor activation in ischemia and cell transplant models in vivo show oxygenation decreases on the scale of minutes.
    Type: Grant
    Filed: August 5, 2015
    Date of Patent: January 23, 2018
    Assignee: University of Virginia Patent Foundation
    Inventors: Kenneth Brayman, Daniel Bowers, Cassandra L. Fraser, Edward A. Botchwey, III
  • Publication number: 20160041177
    Abstract: To address the need for scaffold-based oxygen concentration monitoring, a single-component, self-referenced oxygen sensor was made into nanofibers. Electrospinning process parameters were tuned to produce a biomaterial scaffold with specific morphological features. The ratio of an oxygen sensitive phosphorescence signal to an oxygen insensitive fluorescence signal was calculated at each image pixel to determine an oxygenation value. A single component boron dye-polymer conjugate was chosen for additional investigation due to improved resistance to degradation in aqueous media compared to a dye polymer blend. Standardization curves show that in fully supplemented media, the fibers are responsive to dissolved oxygen concentrations less than 15 parts per million. Spatial and temporal ratiometric gradients were observed in vitro radiating outward from the center of a dense adherent cell grouping. Sensor activation in ischemia and cell transplant models in vivo show oxygenation decreases on the scale of minutes.
    Type: Application
    Filed: August 5, 2015
    Publication date: February 11, 2016
    Inventors: Kenneth Brayman, Daniel Bowers, Cassandra L. Fraser, Edward A. Botchwey, III