Patents by Inventor Brian Strem

Brian Strem 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: 20240358544
    Abstract: The present disclosure provides a method of treating a human subject suffering from a retinal disorder, the method comprising administering to the eye of the subject via intravitreal injection a composition comprising a compound of formula (I) as described herein.
    Type: Application
    Filed: April 26, 2024
    Publication date: October 31, 2024
    Inventors: Brian STREM, Stefan SPERL, Eric DANIELS
  • Publication number: 20220265783
    Abstract: The present specification discloses Ranpirnase and Amphinase, compositions comprising Ranpirnase and/or Amphinase, and methods and uses to treat a viral conjunctivitis, an epidemic keratoconjunctivitis, and/or a pharyngoconjunctival fever, reduce or suppress a level of virus or viral titer, reduce or suppress viral replication, reduce or suppress protein synthesis, reduce or suppress a level of a tRNA, reduce or suppress a level of an inflammation inducing molecule and/or an inflammation inducing prostaglandin, stimulate or enhance a peroxisome proliferator-activated receptor (PPAR) pathway signal, promote the resolving phenotypic change of M1 to M2, modulate Th1 and Th2 cytokines, and/or reduce or suppress a NF?B pathway signal using Ranpirnase, Amphinase or compositions comprising Ranpirnase and/or Amphinase.
    Type: Application
    Filed: February 7, 2022
    Publication date: August 25, 2022
    Inventor: Brian Strem
  • Publication number: 20170258876
    Abstract: The present specification discloses Ranpirnase and Amphinase, compositions comprising Ranpirnase and/or Amphinase, and methods and uses to treat a viral conjunctivitis, an epidemic keratoconjunctivitis, and/or a pharyngoconjunctival fever, reduce or suppress a level of virus or viral titer, reduce or suppress viral replication, reduce or suppress protein synthesis, reduce or suppress a level of a tRNA, reduce or suppress a level of an inflammation inducing molecule and/or an inflammation inducing prostaglandin, stimulate or enhance a peroxisome proliferator-activated receptor (PPAR) pathway signal, promote the resolving phenotypic change of M1 to M2, modulate Th1 and Th2 cytokines, and/or reduce or suppress a NF?B pathway signal using Ranpirnase, Amphinase or compositions comprising Ranpirnase and/or Amphinase.
    Type: Application
    Filed: May 24, 2017
    Publication date: September 14, 2017
    Applicant: Okogen, Inc
    Inventor: Brian Strem
  • Patent number: 9682130
    Abstract: The present specification discloses Ranpirnase and Amphinase, compositions comprising Ranpirnase and/or Amphinase, and methods and uses to treat a viral conjunctivitis, an epidemic keratoconjunctivitis, and/or a pharyngoconjunctival fever, reduce or suppress a level of virus or viral titer, reduce or suppress viral replication, reduce or suppress protein synthesis, reduce or suppress a level of a tRNA, reduce or suppress a level of an inflammation inducing molecule and/or an inflammation inducing prostaglandin, stimulate or enhance a peroxisome proliferator-activated receptor (PPAR) pathway signal, promote the resolving phenotypic change of M1 to M2, modulate Th1 and Th2 cytokines, and/or reduce or suppress a NF?B pathway signal using Ranpirnase, Amphinase or compositions comprising Ranpirnase and/or Amphinase.
    Type: Grant
    Filed: September 25, 2016
    Date of Patent: June 20, 2017
    Assignee: Okogen, LLC
    Inventor: Brian Strem
  • Publication number: 20170087223
    Abstract: The present specification discloses Ranpirnase and Amphinase, compositions comprising Ranpirnase and/or Amphinase, and methods and uses to treat a viral conjunctivitis, an epidemic keratoconjunctivitis, and/or a pharyngoconjunctival fever, reduce or suppress a level of virus or viral titer, reduce or suppress viral replication, reduce or suppress protein synthesis, reduce or suppress a level of a tRNA, reduce or suppress a level of an inflammation inducing molecule and/or an inflammation inducing prostaglandin, stimulate or enhance a peroxisome proliferator-activated receptor (PPAR) pathway signal, promote the resolving phenotypic change of M1 to M2, modulate Th1 and Th2 cytokines, and/or reduce or suppress a NF?B pathway signal using Ranpirnase, Amphinase or compositions comprising Ranpirnase and/or Amphinase.
    Type: Application
    Filed: September 25, 2016
    Publication date: March 30, 2017
    Applicant: Okogen, LLC
    Inventor: Brian Strem
  • Publication number: 20060204556
    Abstract: Cell-loaded devices or prostheses having various applications such as insertion into body passages are disclosed. The prostheses include cell carrier portions which are compatible with living tissue and which are loaded with therapeutic cell populations, and the prostheses can be applied within or replace one or more of narrow segments, environments which may be difficult to access or luminal areas of the body such as parts of blood vessels. In the context of blood vessels, the cell-loaded devices or prostheses can line or otherwise treat with therapeutic cell populations inner walls of damaged blood vessels and surrounding parenchyma or other organs.
    Type: Application
    Filed: December 22, 2005
    Publication date: September 14, 2006
    Applicant: Cytori Therapeutics, Inc.
    Inventors: Eric Daniels, Brian Strem, Susan Riley, Mike De Emedio, John Fraser, Marc Hedrick
  • Publication number: 20060083720
    Abstract: Adipose derived regenerative cells are used to treat patients, including patients with cardiovascular conditions, diseases or disorders. Methods of treating patients include processing adipose tissue to deliver a concentrated amount of regenerative cells, e.g., stem and/or progenitor cells, obtained from the adipose tissue to a patient. The methods may be practiced in a closed system so that the stem cells are not exposed to an external environment prior to being administered to a patient. Accordingly, in a preferred method, adipose derived regenerative cells are placed directly into a recipient along with such additives necessary to promote, engender or support a therapeutic cardiovascular benefit.
    Type: Application
    Filed: May 25, 2005
    Publication date: April 20, 2006
    Inventors: John Fraser, Marc Hedrick, Min Zhu, Brian Strem, Eric Daniels, Isabella Wulur
  • Publication number: 20050048035
    Abstract: Cells present in adipose tissue are used to stroke and stroke related diseases and disorders in a patient. Methods of treating patients include processing adipose tissue to deliver a concentrated amount of regenerative cells obtained from the adipose tissue to a patient. The methods may be practiced in a closed system so that the regenerative cells are not exposed to an external environment prior to being administered to a patient. Accordingly, in a preferred method, cells present in adipose tissue are placed directly into a recipient along with such additives necessary to promote, engender or support a therapeutic benefit.
    Type: Application
    Filed: July 1, 2004
    Publication date: March 3, 2005
    Inventors: John Fraser, Marc Hedrick, Brian Strem
  • Publication number: 20050008626
    Abstract: Cells present in processed lipoaspirate tissue are used to treat patients, including patients with cardiovascular conditions, diseases or disorders. Methods of treating patients include processing adipose tissue to deliver a concentrated amount of stem cells obtained from the adipose tissue to a patient. The methods may be practiced in a closed system so that the stem cells are not exposed to an external environment prior to being administered to a patient. Accordingly, in a preferred method, cells present in processed lipoaspirate are placed directly into a recipient along with such additives necessary to promote, engender or support a therapeutic cardiovascular benefit.
    Type: Application
    Filed: February 20, 2004
    Publication date: January 13, 2005
    Inventors: John Fraser, Marc Hedrick, Min Zhu, Brian Strem, Eric Daniels, Isabella Wulur