Patents by Inventor HOANG TA

HOANG TA 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: 20210040433
    Abstract: Hypoxia plays a central role in cancer progression and resistance to therapy. A microdevice platform is engineered to recapitulate the intratumor oxygen gradients that drive the heterogeneous hypoxic landscapes in solid tumors. The microdevice design features a “tumor section”-like culture by incorporating a cell layer between two diffusion barriers, where an oxygen gradient is established by cellular metabolism and physical constraints. The oxygen gradient is confirmed by numerical simulation and imaging-based oxygen sensor measurement. Spatially-resolved hypoxic signaling in cancer cells is also demonstrated through immunostaining, gene expression assay, and hypoxia-targeted drug treatment. The microdevice platform can accurately generate and control oxygen gradients, eliminates complex microfluidic handling, allows for incorporation of additional tumor components, and is compatible with high-content imaging and high-throughput applications.
    Type: Application
    Filed: October 15, 2020
    Publication date: February 11, 2021
    Inventors: KEYUE SHEN, YUTA ANDO, DANIEL YEN, HOANG TA
  • Patent number: 10829730
    Abstract: Hypoxia plays a central role in cancer progression and resistance to therapy. A microdevice platform is engineered to recapitulate the intratumor oxygen gradients that drive the heterogeneous hypoxic landscapes in solid tumors. The microdevice design features a “tumor section”-like culture by incorporating a cell layer between two diffusion barriers, where an oxygen gradient is established by cellular metabolism and physical constraints. The oxygen gradient is confirmed by numerical simulation and imaging-based oxygen sensor measurement. Spatially-resolved hypoxic signaling in cancer cells is also demonstrated through immunostaining, gene expression assay, and hypoxia-targeted drug treatment. The microdevice platform can accurately generate and control oxygen gradients, eliminates complex microfluidic handling, allows for incorporation of additional tumor components, and is compatible with high-content imaging and high-throughput applications.
    Type: Grant
    Filed: March 30, 2018
    Date of Patent: November 10, 2020
    Assignee: UNIVERSITY OF SOUTHERN CALIFORNIA
    Inventors: Keyue Shen, Yuta Ando, Daniel Yen, Hoang Ta
  • Publication number: 20180291330
    Abstract: Hypoxia plays a central role in cancer progression and resistance to therapy. A microdevice platform is engineered to recapitulate the intratumor oxygen gradients that drive the heterogeneous hypoxic landscapes in solid tumors. The microdevice design features a “tumor section”-like culture by incorporating a cell layer between two diffusion barriers, where an oxygen gradient is established by cellular metabolism and physical constraints. The oxygen gradient is confirmed by numerical simulation and imaging-based oxygen sensor measurement. Spatially-resolved hypoxic signaling in cancer cells is also demonstrated through immunostaining, gene expression assay, and hypoxia-targeted drug treatment. The microdevice platform can accurately generate and control oxygen gradients, eliminates complex microfluidic handling, allows for incorporation of additional tumor components, and is compatible with high-content imaging and high-throughput applications.
    Type: Application
    Filed: March 30, 2018
    Publication date: October 11, 2018
    Inventors: KEYUE SHEN, YUTA ANDO, DANIEL YEN, HOANG TA