Patents by Inventor Sam Linton

Sam Linton 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: 20210338705
    Abstract: Method of producing nanoparticle of drug and imaging agents are provided. The phosphorylated encapsulated drugs and imaging agents could be encapsulated at therapeutic levels, were encapsulated at higher amounts. The CPSNPs were more effective in treating cancer, in reducing cancer proliferation, arresting cancer cell growth than when not in the form of a CPSNP, and showed efficacious treatment of cancer cells at far lower dosage than free molecules. Calcium phosphosilicate and phosphate nanoparticles are disclosed and their method of use. The methods and nanoparticles are particularly efficacious where CPSNPs were used to encapsulate 5-FU metabolites such as FdUMP and gemcitabine metabolites.
    Type: Application
    Filed: June 9, 2021
    Publication date: November 4, 2021
    Inventors: James H. Adair, Gail L. Matters, Welley S. Loc, Amra Tabakovic, Mark Kester, Sam Linton, Christopher McGovern, Xiaomeng Tang, Gary A. Clawson, Jill P. Smith, Tye Deering
  • Publication number: 20190255087
    Abstract: Method of producing nanoparticle of drug and imaging agents are provided. The phosphorylated encapsulated drugs and imaging agents could be encapsulated at therapeutic levels, were encapsulated at higher amounts. The CPSNPs were more effective in treating cancer, in reducing cancer proliferation, arresting cancer cell growth than when not in the form of a CPSNP, and showed efficacious treatment of cancer cells at far lower dosage than free molecules. Calcium phosphosilicate and phosphate nanoparticles are disclosed and their method of use. The methods and nanoparticles are particularly efficacious where CPSNPs were used to encapsulate 5-FU metabolites such as FdUMP and gemcitabine metabolites.
    Type: Application
    Filed: April 12, 2019
    Publication date: August 22, 2019
    Inventors: James H. Adair, Gail L. Matters, Welley S. Loc, Amra Tabakovic, Mark Kester, Sam Linton, Christopher McGovern, Xiaomeng Tang, Gary A. Clawson, Jill P. Smith, Tye Deering
  • Publication number: 20170209478
    Abstract: Method of producing nanoparticle of drug and imaging agents are provided. The phosphorylated encapsulated drugs and imaging agents could be encapsulated at therapeutic levels, were encapsulated at higher amounts. The CPSNPs were more effective in treating cancer, in reducing cancer proliferation, arresting cancer cell growth than when not in the form of a CPSNP, and showed efficacious treatment of cancer cells at far lower dosage than free molecules. Calcium phosphosilicate and phosphate nanoparticles are disclosed and their method of use. The methods and nanoparticles are particularly efficacious where CPSNPs were used to encapsulate 5-FU metabolites such as FdUMP and gemcitabine metabolites.
    Type: Application
    Filed: January 20, 2017
    Publication date: July 27, 2017
    Inventors: James H. Adair, Gail Matters, Welley S. Loc, Amra Tabakovic, Mark Kester, Sam Linton, Christopher McGovern, Christopher Gigliotti, Xiaomeng Tang, Peter J. Butler, Gary A. Clawson, Jill P. Smith
  • Publication number: 20140252079
    Abstract: An analysis system utilizes a reagent with a machine-readable label for performing a biological assay on a sample. A scanner reads the label, and generates a scanner signal in response to reading the label. A memory stores a plurality of protocols for the automation of one or more assays performed on one or more samples. A detector generates a detector signal in response to the sample. A controller receives the scanner signal and selecting a corresponding protocol from the plurality of protocols in response to at least the scanner signal. The detector signal is received by the controller and processed into a data set. A user input module facilitates user selection of assay protocol parameters. The user input module is in communication with the controller. A data processing module is in communication with the controller. The data processing module receives the data set and processes the data set according to the protocol.
    Type: Application
    Filed: March 11, 2013
    Publication date: September 11, 2014
    Applicant: PROMEGA CORPORATION
    Inventors: Michael Bjerke, Jeffrey Franz, Herly Karlen, Ivan Ivanov, Sam Linton