Abstract: This invention relates to radiolabeled peptides and methods for producing such peptides. Specifically, the invention relates to specific binding peptides, methods and kits for making such peptides, and methods for using such peptides labeled with technetium-99m via a radiolabel-binding moiety covalently linked to the peptide to image thrombus sites in a mammalian body.
Abstract: This invention relates to radiodiagnostic agents and reagents for preparing such agents, and also methods for producing radiolabeled radiodiagnostic agents. Specifically, the invention relates to technetium-99m (.sup.99m Tc) labeled agents, methods and kits for making the agents, and methods for using the agents to image pathological sites, including sites of infection, inflammation, cancer and atherosclerosis in a mammalian body. Specifically the agents and reagents are derivatives of oligosaccharides, more specifically .beta.-glucans.
Abstract: This invention relates to therapeutic reagents and peptides, radiodiagnostic reagents and peptides, and methods for producing labeled radiodiagnostic agents. Specifically, the invention relates to peptide derivatives and analogs of somatostatin, and embodiments of such peptides labeled with technetium-99m (Tc-99m), as well as methods and kits for making, radiolabeling and using such peptides to image sites in a mammalian body. The invention also relates to peptide derivatives and analogues of somatostatin labeled with rhenium-186 (.sup.186 Re) and rhenium-188 (.sup.188 Re), and methods and kits for making, radiolabeling and using such peptides therapeutically in a mammalian body.
Abstract: This invention relates to radiodiagnostic agents and reagents for preparing such agents, and also methods for producing radiolabeled radiodiagnostic agents. Specifically, the invention relates to technetium-99m (.sup.99m Tc) labeled agents, methods and kits for making the agents, and methods for using the agents to image pathological sites, including sites of infection, inflammation, cancer and atherosclerosis in a mammalian body. Specifically the agents and reagents are derivatives of oligosaccharides, more specifically .beta.-glucans.
Abstract: This invention relates to radiotherapeutic reagents and peptides, radiodiagnostic reagents and peptides, and methods for producing labeled radiodiagnostic and radiotherapeutic agents. Specifically, the invention relates to VIP receptor binding peptides, derivatives and analogues of VIP, and embodiments of such peptides radiolabeled with a radioisotope, as well as methods and kits for making, radiolabeling and using such peptides for radiodiagnostic and radiotherapeutic purposes. The invention specifically relates to VIP receptor binding peptide derivatives and analogues of VIP radiolabeled with technetium-99m and uses thereof as scintigraphic imaging agents. The invention also specifically relates to VIP receptor binding peptide derivatives and analogues of VIP radiolabeled with cytotoxic radioisotopes such as rhenium-186 (.sup.186 Re) and rhenium-188 (.sup.188 Re) for use as radiotherapeutic agents.
Type:
Grant
Filed:
March 31, 1995
Date of Patent:
December 15, 1998
Assignee:
Diatide, Inc.
Inventors:
Richard T. Dean, Daniel A. Pearson, John Lister-James, Edgar R. Civitello
Abstract: This invention relates to therapeutic reagents and peptides, radiodiagnostic reagents and peptides, and methods for producing labeled radiodiagnostic agents. Specifically, the invention relates to peptide derivatives and analogs of somatostatin, and embodiments of such peptides labeled with technetium-99m (Tc-99m), as well as methods and kits for making, radiolabeling and using such peptides to image sites in a mammalian body. The invention also relates to peptide derivatives and analogues of somatostatin labeled with rhemium-186 (.sup.186 Re) and rhenium-188 (.sup.188 Re), and methods and kits for making, radiolabeling and using such peptides therapeutically in a mammalian body.
Abstract: This invention relates to radiodiagnostic agents and reagents for preparing such agents, and also methods for producing radiolabeled radiodiagnostic agents. Specifically, the invention relates to technetium-99m (.sup.99m Tc) labeled agents, methods and kits for making the agents, and methods for using the agents to image pathological sites, including sites of infection, inflammation, cancer and atherosclerosis in a mammalian body. Specifically the agents and reagents are derivatives of oligosaccharides, more specifically .beta.-glucans.
Abstract: This invention relates to therapeutic reagents and peptides, radiodiagnostic reagents and peptides, and methods for producing labeled radiodiagnostic agents. Specifically, the invention relates to peptide derivatives and analogs of somatostatin, and embodiments of such peptides labeled with technetium-99m (Tc-99m), as well as methods and kits for making, radiolabeling and using such peptides to image sites in a mammalian body. The invention also relates to peptide derivatives and analogues of somatostatin labeled with rhemium-186 (.sup.186 Re) and rhenium-188 (.sup.188 Re), and methods and kits for making, radiolabeling and using such peptides therapeutically in a mammalian body.
Abstract: This invention relates to radiodiagnostic agents and reagents for preparing such agents, and also methods for producing radiolabeled radiodiagnostic agents. Specifically, the invention relates to technetium-99m (.sup.99m Tc) labeled agents, methods and kits for making the agents, and methods for using the agents to image pathological sites, including sites of infection, inflammation, cancer and atherosclerosis in a mammalian body. Specifically the agents and reagents are derivatives of oligosaccharides, more specifically .beta.-glucans.
Abstract: This invention relates to therapeutic reagents and peptides, radiodiagnostic reagents and peptides, and methods for producing labeled radiodiagnostic agents. Specifically, the invention relates to peptide derivatives and analogs of somatostatin, and embodiments of such peptides labeled with technetium-99m (Tc-99m), as well as methods and kits for making, radiolabeling and using such peptides to image sites in a mammalian body. The invention also relates to peptide derivatives and analogues of somatostatin labeled with rhemium-186 (.sup.186 Re) and rhenium-188 (.sup.188 Re), and methods and kits for making, radiolabeling and using such peptides therapeutically in a mammalian body.
Abstract: This invention relates to therapeutic reagents and peptides, radiodiagnostic reagents and peptides, and methods for producing labeled radiodiagnostic agents. Specifically, the invention relates to peptide derivatives and analogs of somatostatin, and embodiments of such peptides labeled with technetium-99m (Tc-99m), as well as methods and kits for making, radiolabeling and using such peptides to image sites in a mammalian body. The invention also relates to peptide derivatives and analogues of somatostatin labeled with rhemium-186 (.sup.186 Re) and rhenium-188 (.sup.188 Re), and methods and kits for making, radiolabeling and using such peptides therapeutically in a mammalian body.
Abstract: The invention relates to radiolabeled imaging of a mammalian body. The invention in particular provides for reagents labeled with technetium-99m for such imaging. The invention provides peptides which bind Tc-99m and which can be targeted to specific sites within a mammalian body.
Type:
Grant
Filed:
June 6, 1995
Date of Patent:
September 29, 1998
Assignee:
Diatide, Inc.
Inventors:
Richard T. Dean, William McBride, Scott Buttram
Abstract: This invention relates to radiodiagnostic agents and reagents for preparing such agents, and also methods for producing radiolabeled radiodiagnostic agents. Specifically, the invention relates to technetium-99m (.sup.99m Tc) labeled agents, methods and kits for making the agents, and methods for using the agents to image pathological sites, including sites of infection, inflammation, cancer and atherosclerosis in a mammalian body. Specifically the agents and reagents are derivatives of oligosaccharides, more specifically .beta.-glucans.
Abstract: The invention elates to radiolabeled imaging of a mammalian body. The invention in particular provides for reagents labeled with technetium-99m for such imaging. The invention provides peptides which bind Tc-99m and which can be targeted to specific sites within a mammalian body.
Type:
Grant
Filed:
June 5, 1995
Date of Patent:
September 15, 1998
Assignee:
Diatide, Inc.
Inventors:
Richard T. Dean, William McBride, Scott Buttram
Abstract: This invention relates to radiolabeled peptides and methods for producing such peptides. Specifically, the invention relates to technetium-99m (Tc-99m) labeled leukocyte-binding peptides, methods and kits for making such peptides, and methods for using such peptides to image sites of infection and inflammation in a mammalian body.
Type:
Grant
Filed:
June 7, 1995
Date of Patent:
September 15, 1998
Assignee:
Diatide, Inc.
Inventors:
Richard T. Dean, Robert S. Lees, Scott Buttram
Abstract: A composition comprising a pharmaceutically acceptable admixture of an osteogenic protein; a polymer matrix component selected from the group consisting of poly(lactic acid), poly(glycolic acid), and copolymers of lactic acid and glycolic acid; and an osteogenic protein-sequestering material.
Type:
Grant
Filed:
June 29, 1993
Date of Patent:
January 28, 1997
Assignee:
Genetics Institute, Inc.
Inventors:
Eyal Ron, Thomas J. Turek, Benjamin S. Isaacs, Himakshi Patel, Richard A. Kenley
Abstract: A novel method of screening for novel secreted mammalian proteins is described in which mammalian secretory leader sequences are detected using the yeast invertase gene as a reporter system.
Abstract: The invention provides a novel calcium-independent cytosolic phospholipase A.sub.2 /B enzyme, polynucleotides encoding such enzyme and methods for screening unknown compounds for anti-inflammatory activity mediated by the arachidonic acid cascade.
Abstract: A novel homogeneous human cytokine, Natural Killer Stimulatory Factor, having the ability to induce the production of gamma interferon in vitro in human peripheral blood lymphocytes, and a pharmaceutical preparation containing it.
Type:
Grant
Filed:
September 18, 1990
Date of Patent:
October 10, 1995
Assignee:
Genetics Institute, Inc.
Inventors:
Giorgio Trinchieri, Bice Perussia, Michiko Kobayashi, Steven C. Clark, Gordon G. Wong, Rodney Hewick
Abstract: Methods of treating mammalian soft tissue injuries such as thermal and chemical burns, surgical incisions, ulcers, abrasions, skin grafts, and nervous tissue damage by administering a therapeutically effective amount of homogeneous K-fibroblast growth factor are provided. Also provided are methods of treating mammalian musculo-skeletal disorders such as bone grafts, bone fractures, ligament tears, cartilage tears, tendon tears, bursa inflammation and tendon inflammation by administering a therapeutically effective amount of homogeneous K-fibroblast growth factor. In accordance with the methods of the invention, homogeneous K-fibroblast growth factor may be administered to the mammal alone or in combination with other growth factors.
Type:
Grant
Filed:
June 12, 1992
Date of Patent:
July 4, 1995
Assignee:
Genetics Institute, Inc.
Inventors:
David T. Rogers, Neil M. Wolfman, Jasbir S. Seehra