Patents by Inventor Ingrid Teige
Ingrid Teige 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).
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Publication number: 20260115286Abstract: The invention provides a method of treating a patient having target cells that express Fc?RIIb, the method comprising administering (i) an antibody molecule that specifically binds a surface antigen of the target cell, which antibody molecule has an Fc domain capable of binding Fc?RIIb; in combination with (ii) an agent that prevents or reduces binding between the Fc domain of the antibody molecule and Fc?RIIb; characterized in that the patient is selected on the basis that their target cells express an elevated level of Fc?RIIb.Type: ApplicationFiled: December 16, 2025Publication date: April 30, 2026Inventors: Mark Cragg, Martin Glennie, Ali Roghanian, Stephen Beers, Peter Johnson, Sean Lim, Björn Frendéus, Ingrid Teige
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Publication number: 20260116981Abstract: Described is the use of a first antibody molecule that specifically binds Fc?RIIb via its Fab region, but lacks Fc region or has reduced binding to Fc? receptors via its Fc region, for use in combination with a second antibody molecule that specifically binds to a receptor present on an immune cell, wherein the immune cell is an immune cell that suppresses anti-cancer immunity, which second antibody molecule has an Fc region that binds to at least one activating Fc? receptor, and wherein the binding of the second antibody molecule to the receptor on the immune cell causes depletion and/or deactivation of the immune cell in the treatment of an Fc?RIIb-negative cancer in a patient, as well as pharmaceutical compositions and kits comprising these to antibody molecules, and methods of treating cancer using these two antibodies.Type: ApplicationFiled: June 13, 2025Publication date: April 30, 2026Inventors: Björn Frendéus, Ingrid Teige, Linda Mårtensson, Mark Cragg, Stephen Beers, Ali Roghanian, Robert Oldham
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Patent number: 12527866Abstract: The invention provides a method of treating a patient having target cells that express Fc?RIIb, the method comprising administering (i) an antibody molecule that specifically binds a surface antigen of the target cell, which antibody molecule has an Fc domain capable of binding Fc?RIIb; in combination with (ii) an agent that prevents or reduces binding between the Fc domain of the antibody molecule and Fc?RIIb; characterized in that the patient is selected on the basis that their target cells express an elevated level of Fc?RIIb.Type: GrantFiled: March 1, 2023Date of Patent: January 20, 2026Assignee: UNIVERSITY OF SOUTHAMPTONInventors: Mark Cragg, Martin Glennie, Ali Roghanian, Stephen Beers, Peter Johnson, Sean Lim, Bjorn Frendeus, Ingrid Teige
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Publication number: 20260001958Abstract: The present invention relates to a composition comprising an antibody molecule and an agent for use in the treatment of refractory cancer and/or relapsed cancer. The invention also relates to a method of treating refractory cancer and/or relapsed cancer comprising administering an antibody molecule and an agent. There are also described kits comprising the antibody molecule and agents.Type: ApplicationFiled: January 18, 2025Publication date: January 1, 2026Inventors: Björn Frendéus, Ingrid Teige, Linda Mårtensson, Mark Cragg, Ali Roghanian
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Publication number: 20250388690Abstract: Described are novel antagonistic antibody molecules that specifically bind to TNFR2 on a target cell and thereby block TNF-? binding to TNFR2 and block TNFR2 signaling, wherein the antibody molecules also bind to Fc receptors via the Fc region. Also described is the use of such antibody molecules in treatment of cancer or infections caused by intracellular pathogens.Type: ApplicationFiled: September 4, 2025Publication date: December 25, 2025Applicant: BIOINVENT INTERNATIONAL ABInventors: Björn FRENDÉUS, Ingrid TEIGE, Linda MÅRTENSSON, Petra HOLMKVIST, Monika SEMMRICH
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Publication number: 20250326849Abstract: Described is the use of a first antibody molecule that specifically binds Fc?RIIB via its Fab region, but lacks Fc region or has reduced binding to Fc? receptors via its Fc region, for use in combination with a second antibody molecule that specifically binds to a receptor present on a tumor cell, which second antibody molecule has an Fc region that binds to at least one activating Fc? receptor in the treatment of an Fc?RIIB-negative cancer in a patient, as well as pharmaceutical compositions and kits including these two antibody molecules, and methods of treating cancer using these two antibodies.Type: ApplicationFiled: March 6, 2023Publication date: October 23, 2025Inventors: Björn FRENDÉUS, Linda MÅRTENSSON, Ingrid TEIGE, Mark CRAGG, Robert OLDHAM, Stephen BEERS, Ali ROGHANIAN
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Patent number: 12441805Abstract: Described are novel antagonistic antibody molecules that specifically bind to TNFR2 on a target cell and thereby block TNF-? binding to TNFR2 and block TNFR2 signaling, wherein the antibody molecules also bind to Fc receptors via the Fc region. Also described is the use of such antibody molecules in treatment of cancer or infections caused by intracellular pathogens.Type: GrantFiled: November 1, 2019Date of Patent: October 14, 2025Assignee: BIOINVENT INTERNATIONAL ABInventors: Björn Frendéus, Ingrid Teige, Linda Mårtensson, Petra Holmkvist, Monika Semmrich
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Publication number: 20250257135Abstract: Described are novel anti-CTLA-4 antibody molecules and nucleotide sequences and expression vectors, such as viruses, encoding such antibody molecules. The novel antibody molecules are Treg depleting antibody molecules, and they have an improved depleting effect on CTLA-4 positive cells, such as Tregs, compared to ipilimumab. Describes is also the use of such antibody molecules or nucleotide sequences or viruses in medicine, such as in the treatment of cancer, such as solid tumours.Type: ApplicationFiled: April 2, 2025Publication date: August 14, 2025Applicants: BIOINVENT INTERNATIONAL AB, TRANSGENE SAInventors: Björn FRENDÉUS, Ingrid TEIGE, Monika SEMMRICH, Linda MÅRTENSSON, Petra HOLMKVIST, Jean-Baptiste MARCHAND, Nathalie SILVESTRE
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Patent number: 12371498Abstract: Described is the use of a first antibody molecule that specifically binds Fc?RIIb via its Fab region, but lacks Fc region or has reduced binding to Fc? receptors via its Fc region, for use in combination with a second antibody molecule that specifically binds to a receptor present on an immune cell, wherein the immune cell is an immune cell that suppresses anti-cancer immunity, which second antibody molecule has an Fc region that binds to at least one activating Fc? receptor, and wherein the binding of the second antibody molecule to the receptor on the immune cell causes depletion and/or deactivation of the immune cell in the treatment of an Fc?RIIb-negative cancer in a patient, as well as pharmaceutical compositions and kits comprising these to antibody molecules, and methods of treating cancer using these two antibodies.Type: GrantFiled: January 10, 2019Date of Patent: July 29, 2025Assignees: BIOVENT INTERNATIONAL AB, UNIVERSITY OF SOUTHAMPTONInventors: Björn Frendéus, Ingrid Teige, Linda Mårtensson, Mark Cragg, Stephen Beers, Ali Roghanian, Robert Oldham
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Patent number: 12344673Abstract: Description of a composition comprising an antibody molecule and an agent for use in the treatment of refractory cancer and/or relapsed cancer, and of a method of treating refractory cancer and/or relapsed cancer comprising administering an antibody molecule and an agent. There are also described kits comprising the antibody molecule and agents.Type: GrantFiled: May 15, 2015Date of Patent: July 1, 2025Assignee: BIOINVENT INTERNATIONAL ABInventors: Björn Frendéus, Ingrid Teige, Linda Mårtensson, Mark Cragg, Ali Roghanian
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Patent number: 12291569Abstract: Described are novel anti-CTLA-4 antibody molecules and nucleotide sequences and expression vectors, such as viruses, encoding such antibody molecules. The novel antibody molecules are Treg depleting antibody molecules, and they have an improved depleting effect on CTLA-4 positive cells, such as Tregs, compared to ipilimumab. Described is also the use of such antibody molecules or nucleotide sequences or viruses in medicine, such as in the treatment of cancer, such as solid tumours.Type: GrantFiled: September 3, 2019Date of Patent: May 6, 2025Assignee: BIOINVENT INTERNATIONAL ABInventors: Björn Frendéus, Ingrid Teige, Monika Semmrich, Linda Mårtensson, Petra Holmkvist
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Publication number: 20250066492Abstract: Described are novel antibody molecules that specifically bind to TNFR2 on a target cell and thereby agonize TNFR2, but that do not block the ligand TNF-? from binding to the TNFR2. Also described is the use of such antibody molecules in medicine, i.a. in treatment of cancer or chronic inflammatory diseases.Type: ApplicationFiled: September 16, 2024Publication date: February 27, 2025Applicant: BIOINVENT INTERNATIONAL ABInventors: Björn FRENDÉUS, Ingrid TEIGE, Linda MÅRTENSSON, Petra HOLMKVIST, Monika SEMMRICH
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Patent number: 12139547Abstract: Described are novel antibody molecules that specifically bind to TNFR2 on a target cell and thereby agonize TNFR2, but that do not block the ligand TNF-? from binding to the TNFR2. Also described is the use of such antibody molecules in medicine, i.a, in treatment of cancer or chronic inflammatory diseases.Type: GrantFiled: November 1, 2019Date of Patent: November 12, 2024Assignee: BIOINVENT INTERNATIONAL ABInventors: Björn Frendéus, Ingrid Teige, Linda Mårtensson, Petra Holmkvist, Monika Semmrich
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Publication number: 20240301070Abstract: The present invention generally relates to combinations for use in therapeutic systems and antibody dosage regimens, and uses thereof. Also described herein is a model for predicting if a therapeutic antibody binding to a human target will be associated with a tolerability issue in connection with intravenous administration and/or for predicting if pre-treatment, altered administration route or modification of the antibody can prevent a tolerability issue associated with intravenous administration to a human of the therapeutic antibody. The model comprises administering the antibody intravenously or intraperitoneally to mice and observing the mice immediately after the administration for any transient display of the macroscopic symptoms isolation and decreased activity.Type: ApplicationFiled: June 4, 2021Publication date: September 12, 2024Applicant: BIOINVENT INTERNATIONAL ABInventors: Björn FRENDÉUS, Linda MÅRTENSSON, Ingrid TEIGE, Ingrid KARLSSON
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Publication number: 20240092912Abstract: The present invention generally relates to antibody combinations and uses thereof.Type: ApplicationFiled: March 9, 2022Publication date: March 21, 2024Inventors: Björn FRENDÉUS, Linda MÅRTENSSON, Ingrid TEIGE, Mark CRAGG, Robert OLDHAM, Stephen BEERS, Ali ROGHANIAN
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Publication number: 20230381310Abstract: The invention provides a method of treating a patient having target cells that express Fc?RIIb, the method comprising administering (i) an antibody molecule that specifically binds a surface antigen of the target cell, which antibody molecule has an Fc domain capable of binding Fc?RIIb; in combination with (ii) an agent that prevents or reduces binding between the Fc domain of the antibody molecule and Fc?RIIb; characterized in that the patient is selected on the basis that their target cells express an elevated level of Fc?RIIb.Type: ApplicationFiled: March 1, 2023Publication date: November 30, 2023Inventors: Mark Cragg, Martin Glennie, Ali Roghanian, Stephen Beers, Peter Johnson, Sean Lim, Bjorn Frendeus, Ingrid Teige
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Publication number: 20230322933Abstract: The present invention generally relates to combinations for use in therapeutic systems and antibody dosage regimens, and uses thereof. Also described herein is a model for predicting if a therapeutic antibody binding to a human target will be associated with a tolerability issue in connection with intravenous administration and/or for predicting if pre-treatment, altered administration route or modification of the antibody can prevent a tolerability issue associated with intravenous administration to a human of the therapeutic antibody. The model comprises administering the antibody intravenously or intraperitoneally to mice and observing the mice immediately after the administration for any transient display of the macroscopic symptoms isolation and decreased activity.Type: ApplicationFiled: June 4, 2021Publication date: October 12, 2023Applicant: BIOINVENT INTERNATIONAL ABInventors: Björn FRENDÉUS, Linda MARTENSSON, Ingrid TEIGE, Ingrid KARLSSON
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Patent number: 11623005Abstract: The invention provides a method of treating a patient having target cells that express Fc?RIIb, the method comprising administering (i) an antibody molecule that specifically binds a surface antigen of the target cell, which antibody molecule has an Fc domain capable of binding Fc?RIIb; in combination with (ii) an agent that prevents or reduces binding between the Fc domain of the antibody molecule and Fc?RIIb; characterized in that the patient is selected on the basis that their target cells express an elevated level of Fc?RIIb.Type: GrantFiled: November 14, 2019Date of Patent: April 11, 2023Assignee: UNIVERSITY OF SOUTHAMPTONInventors: Mark Cragg, Martin Glennie, Ali Roghanian, Stephen Beers, Peter Johnson, Sean Lim, Bjorn Frendeus, Ingrid Teige
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Publication number: 20230058227Abstract: Described is the sequential administration of first a Treg depleting antibody mole-cute selected from antibody molecules, such as an antibody molecule binding specifically to target belonging to the tumour necrosis factor receptor superfamily (TNFRSF), such as a Treg depleting anti-4-1 BB antibody or a Treg depleting OX-40 antibody, and then an immunostimulatory antibody molecule, such as an immunostimulatory anti-4-1 BB anti-body or an immunostimulatory OX-40 antibody, for use in the treatment of cancer. De-scribed are also novel anti-4-1 BB antibodies and novel OX-40 antibodies that may be used in such sequential administration.Type: ApplicationFiled: August 11, 2022Publication date: February 23, 2023Inventors: Björn FRENDÉUS, Linda MÅRTENSSON, Monika SEMMRICH, Ingrid TEIGE, Stephen BEERS, Aymen AL-SHAMKHANI, Juliet GRAY, Martin GLENNIE
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Patent number: 11447549Abstract: Described is the sequential administration of first a Treg depleting antibody molecule selected from antibody molecules, such as an antibody molecule binding specifically to target belonging to the tumour necrosis factor receptor superfamily (TNFRSF), such as a Treg depleting anti-4-1 BB antibody or a Treg depleting OX-40 antibody, and then an immunostimulatory antibody molecule, such as an immunostimulatory anti-4-1 BB anti-body or an immunostimulatory OX-40 antibody, for use in the treatment of cancer. Described are also novel anti-4-1 BB antibodies and novel OX-40 antibodies that may be used in such sequential administration.Type: GrantFiled: July 26, 2018Date of Patent: September 20, 2022Assignee: CANCER RESEARCH TECHNOLOGY LIMITEDInventors: Björn Frendéus, Linda Mårtensson, Monika Semmrich, Ingrid Teige, Stephen Beers, Aymen Al-Shamkhani, Juliet Gray, Martin Glennie