Patents by Inventor Nicholas S. Wilson

Nicholas S. Wilson 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: 20190367627
    Abstract: The present disclosure provides antibodies that specifically bind to human OX40 receptor (OX40) and/or human GITR receptor (GITR), including multispecific antibodies that bind, e.g., to OX40 and GITR, and compositions comprising such antibodies. The antibodies disclosed herein modulate OX40 and/or GITR activity e.g., enhance, activate, induce, reduce, deactivate, or inhibit OX40 and/or GITR activity. The present disclosure also provides methods for treating disorders, such as cancer, autoimmune diseases or disorders, or inflammatory diseases or disorders, by administering an antibody that specifically binds to human OX40 and/or human GITR and modulates OX40 and/or GITR activity.
    Type: Application
    Filed: May 9, 2019
    Publication date: December 5, 2019
    Inventors: Nicholas S. WILSON, Jeremy D. WAIGHT, Dennis J. UNDERWOOD, Ekaterina V. BREOUS-NYSTROM, Gerd RITTER, David SCHAER, Daniel HIRSCHHORN-CYMERMAN, Taha MERGHOUB, Marc VAN DIJK
  • Publication number: 20190352410
    Abstract: The present disclosure provides antibodies that specifically bind to human OX40 receptor (OX40) and compositions comprising such antibodies. In a specific aspect, the antibodies specifically bind to human OX40 and modulate OX40 activity, e.g., enhance, activate, or induce OX40 activity, or reduce, deactivate, or inhibit OX40 activity. The present disclosure also provides methods for treating disorders, such as cancer, by administering an antibody that specifically binds to human OX40 and modulates OX40 activity, e.g., enhances, activates, or induces OX40 activity. Also provided are methods for treating autoimmune or inflammatory diseases or disorders, by administering an antibody that specifically binds to human OX40 and modulates OX40 activity, e.g., reduces, deactivates, or inhibits OX40 activity.
    Type: Application
    Filed: April 15, 2019
    Publication date: November 21, 2019
    Inventors: Marc VAN DIJK, Ekaterina V. BREOUS-NYSTROM, Volker SEIBERT, Gerd RITTER, David SCHAER, Daniel HIRSCHHORN-CYMERMAN, Taha MERGHOUB, Hao TANG, David A. SAVITSKY, Jeremy WAIGHT, Nicholas S. WILSON
  • Publication number: 20190284291
    Abstract: The present disclosure provides antibodies that specifically bind to human OX40 receptor (OX40) and compositions comprising such antibodies. In a specific aspect, the antibodies specifically bind to human OX40 and modulate OX40 activity, e.g., enhance, activate, or induce OX40 activity, or reduce, deactivate, or inhibit OX40 activity. The present disclosure also provides methods for treating disorders, such as cancer, by administering an antibody that specifically binds to human OX40 and modulates OX40 activity, e.g., enhances, activates, or induces OX40 activity. Also provided are methods for treating autoimmune or inflammatory diseases or disorders, by administering an antibody that specifically binds to human OX40 and modulates OX40 activity, e.g., reduces, deactivates, or inhibits OX40 activity.
    Type: Application
    Filed: February 25, 2019
    Publication date: September 19, 2019
    Inventors: Marc VAN DIJK, Ekaterina V. Breous-Nystrom, Volker Seibert, Gerd Ritter, David Schaer, Daniel Hirschhorn-Cymerman, Taha Merghoub, Hao Tang, David A. Savitsky, Jeremy Waight, Nicholas S. Wilson
  • Publication number: 20190192198
    Abstract: In one general aspect, an orthopaedic fixation device includes an inner core and shaft formed of a multi-layered, fiber-reinforced composite. A sensing element is embedded within the multi-layered, fiber-reinforced composite.
    Type: Application
    Filed: March 4, 2019
    Publication date: June 27, 2019
    Inventors: Sied W. Janna, James K. Rains, Nicholas S. Ritchey, Darren James Wilson
  • Patent number: 10259882
    Abstract: The present disclosure provides antibodies that specifically bind to human OX40 receptor (OX40) and compositions comprising such antibodies. In a specific aspect, the antibodies specifically bind to human OX40 and modulate OX40 activity, e.g., enhance, activate, or induce OX40 activity, or reduce, deactivate, or inhibit OX40 activity. The present disclosure also provides methods for treating disorders, such as cancer, by administering an antibody that specifically binds to human OX40 and modulates OX40 activity, e.g., enhances, activates, or induces OX40 activity. Also provided are methods for treating autoimmune or inflammatory diseases or disorders, by administering an antibody that specifically binds to human OX40 and modulates OX40 activity, e.g., reduces, deactivates, or inhibits OX40 activity.
    Type: Grant
    Filed: May 6, 2016
    Date of Patent: April 16, 2019
    Assignees: Agenus Inc., Memorial Sloan-Kettering Cancer Center, Ludwig Institute for Cancer Research Ltd
    Inventors: Marc Van Dijk, Ekaterina V. Breous-Nystrom, Gerd Ritter, David Schaer, Daniel Hirschhorn-Cymerman, Taha Merghoub, Hao Tang, David A. Savitsky, Nicholas S. Wilson
  • Publication number: 20190010239
    Abstract: The present disclosure provides antibodies that specifically bind to human glucocorticoid-induced TNFR family related receptor (GITR) and compositions comprising such antibodies. In a specific aspect, the antibodies specifically bind to human GITR and modulate GITR activity, e.g., enhance, activate or induce GITR activity, utilizing such antibodies. The present disclosure also provides methods for treating disorders, such as cancer and infectious diseases, by administering an antibody that specifically binds to human GITR and modulates GITR activity e.g., enhances, activates or induces GITR activity.
    Type: Application
    Filed: April 25, 2018
    Publication date: January 10, 2019
    Inventors: Ana M. GONZALEZ, Nicholas S. WILSON, Dennis J. UNDERWOOD, Volker SEIBERT, Olivier LÉGER, Marc VAN DIJK, Roberta ZAPPASODI, Taha MERGHOUB, Jedd David WOLCHOK, David SCHAER, Gerd RITTER, Takemasa TSUJI
  • Publication number: 20180355051
    Abstract: The present disclosure provides antibodies that specifically bind to human glucocorticoid-induced TNFR family related receptor (GITR) and compositions comprising such antibodies. In a specific aspect, the antibodies specifically bind to human GITR and modulate GITR activity, e.g., enhance, activate or induce GITR activity, utilizing such antibodies. The present disclosure also provides methods for treating disorders, such as cancer and infectious diseases, by administering an antibody that specifically binds to human GITR and modulates GITR activity e.g., enhances, activates or induces GITR activity.
    Type: Application
    Filed: April 25, 2018
    Publication date: December 13, 2018
    Inventors: Ana M. GONZALEZ, Nicholas S. WILSON, Dennis J. UNDERWOOD, Volker SEIBERT, Olivier LÉGER, Marc VAN DIJK, Roberta ZAPPASODI, Taha MERGHOUB, Jedd David WOLCHOK, David SCHAER, Gerd RITTER, Takemasa TSUJI
  • Publication number: 20180244793
    Abstract: The present disclosure provides antibodies that specifically bind to human glucocorticoid-induced TNFR family related receptor (GITR) and compositions comprising such antibodies. In a specific aspect, the antibodies specifically bind to human GITR and modulate GITR activity, e.g., enhance, activate or induce GITR activity, utilizing such antibodies. The present disclosure also provides methods for treating disorders, such as cancer and infectious diseases, by administering an antibody that specifically binds to human GITR and modulates GITR activity e.g., enhances, activates or induces GITR activity.
    Type: Application
    Filed: April 25, 2018
    Publication date: August 30, 2018
    Inventors: Ana M. GONZALEZ, Nicholas S. WILSON, Deninis J. UNDERWOOD, Volker SEIBERT, Olivier LÉGER, Marc VAN DIJK, Roberta ZAPPASODI, Taha MERGHOUB, Jedd David WOLCHOK, David SCHAER, Gerd RITTER, Takemasa TSUJI
  • Publication number: 20160347847
    Abstract: The present disclosure provides antibodies that specifically bind to human OX40 receptor (OX40) and compositions comprising such antibodies. In a specific aspect, the antibodies specifically bind to human OX40 and modulate OX40 activity, e.g., enhance, activate, or induce OX40 activity, or reduce, deactivate, or inhibit OX40 activity. The present disclosure also provides methods for treating disorders, such as cancer, by administering an antibody that specifically binds to human OX40 and modulates OX40 activity, e.g., enhances, activates, or induces OX40 activity. Also provided are methods for treating autoimmune or inflammatory diseases or disorders, by administering an antibody that specifically binds to human OX40 and modulates OX40 activity, e.g., reduces, deactivates, or inhibits OX40 activity.
    Type: Application
    Filed: May 6, 2016
    Publication date: December 1, 2016
    Inventors: Marc VAN DIJK, Ekaterina V. Breous-Nystrom, Volker Seibert, Gerd Ritter, David Schaer, Daniel Hirschhorn-Cymerman, Taha Merghoub, Hao Tang, David A. Savitsky, Jeremy Waight, Nicholas S. Wilson
  • Publication number: 20150368349
    Abstract: The present disclosure provides antibodies that specifically bind to human glucocorticoid-induced TNFR family related receptor (GITR) and compositions comprising such antibodies. In a specific aspect, the antibodies specifically bind to human GITR and modulate GITR activity, e.g., enhance, activate or induce GITR activity, utilizing such antibodies. The present disclosure also provides methods for treating disorders, such as cancer and infectious diseases, by administering an antibody that specifically binds to human GITR and modulates GITR activity e.g., enhances, activates or induces GITR activity.
    Type: Application
    Filed: May 28, 2015
    Publication date: December 24, 2015
    Inventors: Ana M. GONZALEZ, Nicholas S. Wilson, Dennis J. Underwood, Volker Seibert, Olivier Léger, Marc van Dijk, Roberta Zappasodi, Taha Merghoub, Jedd David Wolchok, David Schaer, Gerd Ritter, Takemasa Tsuji