Patents by Inventor Ryan Cole

Ryan Cole 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: 20260063363
    Abstract: The present disclosure provides, among other things, methods of drying porcine thyroid gland material and manufacturing DTE comprising vacuum drying porcine thyroid gland material in a way such that the temperature of the porcine thyroid gland material is maintained above a threshold temperature. Since applying vacuum, or reducing pressure, has a cooling effect on the porcine thyroid gland material, maintaining the porcine thyroid gland material above a threshold temperature can be achieved by gradually reducing pressure while simultaneously increasing the heat applied to the porcine thyroid gland material during the period of gradual pressure change. Such methods are advantageous in reducing bioburden (killing and impeding the growth of microorganisms) while maintaining therapeutic levels of thyroid hormones, as compared to certain methods of drying porcine thyroid gland material and/or manufacturing DTE known in the art.
    Type: Application
    Filed: February 24, 2025
    Publication date: March 5, 2026
    Inventors: Ryan Cole, Austin Soejoto, Matthew Costanzo, Andrew Perea, Nathan Wecker, Daniel Baumann, Benjamin Wademan, Shedrick Williams, Kevin Tang
  • Patent number: 12235043
    Abstract: The present disclosure provides, among other things, methods of drying porcine thyroid gland material and manufacturing DTE comprising vacuum drying porcine thyroid gland material in a way such that the temperature of the porcine thyroid gland material is maintained above a threshold temperature. Since applying vacuum, or reducing pressure, has a cooling effect on the porcine thyroid gland material, maintaining the porcine thyroid gland material above a threshold temperature can be achieved by gradually reducing pressure while simultaneously increasing the heat applied to the porcine thyroid gland material during the period of gradual pressure change. Such methods are advantageous in reducing bioburden (killing and impeding the growth of microorganisms) while maintaining therapeutic levels of thyroid hormones, as compared to certain methods of drying porcine thyroid gland material and/or manufacturing DTE known in the art.
    Type: Grant
    Filed: August 30, 2024
    Date of Patent: February 25, 2025
    Assignee: ALI Pharmaceutical Manufacturing, LLC
    Inventors: Ryan Cole, Austin Soejoto, Matthew Costanzo, Andrew Perea, Nathan Wecker, Daniel Baumann, Benjamin Wademan, Shedrick Williams, Kevin Tang
  • Publication number: 20240266795
    Abstract: An electrical contact system includes a contact having a barrel with a wire entry portion having a first diameter, a clip portion having a second diameter, and a cam portion having a second diameter at a first end that tapers to a third diameter at a second end near the wire entry portion. The system also includes a clip positioned in the clip portion of the barrel, wherein ends of inwardly directed tines of the clip are configured to engage the conductor to enable the clip to be drawn onto the cam portion in response to a user pulling the wire after insertion of the conductor through the clip.
    Type: Application
    Filed: February 6, 2023
    Publication date: August 8, 2024
    Inventors: Robert Arthur Nye, Shawn David Mohlman, Matthew B. Knuth, Joel Douglas Johnson, Bradley J. Mitchell, Eduardo Montero-Valdez, Ryan Cole, Ty Aaby Larsen
  • Patent number: 11614402
    Abstract: A system for recording transmission spectra of a sample with a spectrometer that produces baseline-free molecular response signal. A method for producing baseline-free signals includes applying a logarithmic function to a measured transmission spectrum to form an intermediate spectrum. Applying an inverse Fourier transform to the intermediate spectrum generates a modified free-induction-decay (m-FID) signal, which allows for the separation of molecular absorption features from baseline effects present in the m-FID signal. A weighting function is then applied that suppresses temporal portions of the m-FID signal that correspond to sources of baseline fluctuations as well as periodic effects (e.g. etalons). The method generates a baseline-suppressed m-FID signal that is converted to an absorption spectrum, which exhibits suppressed contributions from baseline fluctuations and periodic effects.
    Type: Grant
    Filed: March 9, 2020
    Date of Patent: March 28, 2023
    Assignee: THE REGENTS OF THE UNIV. OF COLORADO, A BODY CORP.
    Inventors: Amanda Makowiecki, Ryan Cole, Nazanin Hoghooghi, Greg Rieker
  • Publication number: 20220164696
    Abstract: Described herein is a method, system, and apparatus, or combinations and sub-combinations thereof for automatically training an analytical model. In a given embodiment, a server may generate a model dependency structure, including a definition for each dependency relationship between various analytical models. The server generates a script using the model dependency structure. The script may identify a definition of a dependency relationship between the first analytical model and a second analytical model based on the model dependency structure. The script may generate and transmit an instruction to the task scheduler to train the first analytical model.
    Type: Application
    Filed: November 23, 2020
    Publication date: May 26, 2022
    Applicant: Capital One Services, LLC
    Inventors: Xue LI, Bing LIU, Yunjin SUN, Ruikai CAO, Yun ZHOU, Ryan COLE, Dimas GONZALES
  • Publication number: 20200284723
    Abstract: A system for recording transmission spectra of a sample with a spectrometer that produces baseline-free molecular response signal. A method for producing baseline-free signals includes applying a logarithmic function to a measured transmission spectrum to form an intermediate spectrum. Applying an inverse Fourier transform to the intermediate spectrum generates a modified free-induction-decay (m-FID) signal, which allows for the separation of molecular absorption features from baseline effects present in the m-FID signal. A weighting function is then applied that suppresses temporal portions of the m-FID signal that correspond to sources of baseline fluctuations as well as periodic effects (e.g. etalons). The method generates a baseline-suppressed m-FID signal that is converted to an absorption spectrum, which exhibits suppressed contributions from baseline fluctuations and periodic effects.
    Type: Application
    Filed: March 9, 2020
    Publication date: September 10, 2020
    Inventors: Amanda Makowiecki, Ryan Cole, Nazanin Hoghooghi, Greg Rieker