Boston Biomedical, Inc. Patent applications |
Patent application number | Title | Published |
20160031888 | 3-(ARYL OR HETEROARYL) METHYLENEINDOLIN-2-ONE DERIVATIVES AS INHIBITORS OF CANCER STEM CELL PATHWAY KINASES FOR THE TREATMENT OF CANCER - The invention provides compounds of Formula I as inhibitors of cancer stem cells as well as cancer stem cell pathway kinase and other related kinases, pharmaceutical compositions and uses thereof in the treatment of cancer or a related disorder in a mammal, wherein i.a. R | 02-04-2016 |
20160030384 | 2-ACETYLNAPHTHO[2,3-B]FURAN -4,9-DIONE FOR USE ON TREATING CANCER - The invention provides naphthofuran compounds, polymorphs of naphthofuran compounds, naphthofuran compounds in particle form, purified compositions that contain one or more naphthofuran compounds, purified compositions that contain one or more naphthofuran compounds in particle form, and methods of using these naphthofuran compounds, polymorphs, purified compositions and/or particle forms to treat subjects in need thereof. | 02-04-2016 |
20150183756 | NOVEL COMPOUNDS AND COMPOSITIONS FOR TARGETING CANCER STEM CELLS - The invention provides naphthofuran compounds, polymorphs of naphthofuran compounds, naphthofuran compounds in particle form, purified compositions that contain one or more naphthofuran compounds, purified compositions that contain one or more naphthofuran compounds in particle form, methods of producing these naphthofuran compounds, polymorphs, purified compositions and/or particle forms, and methods of using these naphthofuran compounds, polymorphs, purified compositions and/or particle forms to treat subjects in need thereof. | 07-02-2015 |
20130330824 | ENABLING THE USE OF LONG dsRNA FOR GENE TARGETING IN MAMMALIAN AND OTHER SELECTED ANIMAL CELLS - The present invention provides a method of enabling the use of long dsRNA for gene silencing in mammalian cells through bacteria, preferably non-pathogenic or therapeutic strains of bacteria. DNA that encodes long double-strand RNAs are transformed into bacteria and processed in the bacterial cells into a mixture of smaller RNA duplexes and then released into the cytoplasm of the target cells, resulting in modulation of gene expression in the target cells. The methods overcome the incompatibility between long strong dsRNA and mammalian cells by eliminating, or mitigating, the non-specific innate immune response. The eukaryotic cells can be mammalian cells or avian cells. The gene of interest can be a mammalian, avian, bacterial, eukaryotic, or viral gene. | 12-12-2013 |
20130034591 | NOVEL COMPOUNDS AND COMPOSITIONS FOR TARGETING CANCER STEM CELLS - The invention provides naphthofuran compounds, polymorphs of naphthofuran compounds, naphthofuran compounds in particle form, purified compositions that contain one or more naphthofuran compounds, purified compositions that contain one or more naphthofuran compounds in particle form, methods of producing these naphthofuran compounds, polymorphs, purified compositions and/or particle forms, and methods of using these naphthofuran compounds, polymorphs, purified compositions and/or particle forms to treat subjects in need thereof. | 02-07-2013 |
20130028944 | NOVEL METHODS FOR TARGETING CANCER STEM CELLS - The invention provides naphthofuran compounds, polymorphs of naphthofuran compounds, naphthofuran compounds in particle form, purified compositions that contain one or more naphthofuran compounds, purified compositions that contain one or more naphthofuran compounds in particle form, methods of producing these naphthofuran compounds, polymorphs, purified compositions and/or particle forms, and methods of using these naphthofuran compounds, polymorphs, purified compositions and/or particle forms to treat subjects in need thereof. | 01-31-2013 |
20120321622 | Compositions of Kinase Inhibitors and Their Use for Treatment of Cancer and Other Diseases Related to Kinases - The present invention relates to novel thiazole-substituted indolin-2-ones as inhibitors of CSCPK and related kinases; to methods of inhibiting cancer stem cells by using a kinase inhibitor; to pharmaceutical compositions containing such compounds; and to methods of using such compounds in the treatment of a protein kinase related disorder in a mammal; and to processes of making such compounds and intermediates thereof. | 12-20-2012 |
20120252763 | NOVEL GROUP OF STAT3 PATHWAY INHIBITORS AND CANCER STEM CELL PATHWAY INHIBITORS - The present invention relates to the use of a novel class of cancer stem cell pathway (CSCP) inhibitors; to methods of using such compounds to treat refractory, recurrent, or metastatic cancers; to methods of selective killing cancer cells by using such compounds with specific administration regimen; to methods of targeting cancer stem cells by inhibiting Stat3 pathway; to methods of using novel compounds in the treatment of conditions or disorders in a mammal related to aberrant Stat3 pathway activity; and to processes for preparing such compounds and intermediates thereof, and to the pharmaceutical composition of relevant compounds, and to the specific methods of administration of these compounds. | 10-04-2012 |
20110112180 | NOVEL STAT3 PATHWAY INHIBITORS AND CANCER STEM CELL INHIBITORS - The present invention relates to a novel naphtho class of compounds as Stat3 pathway inhibitors and as cancer stem cell inhibitors; to methods of using such compounds to treat cancer; to methods of using such compounds to treat disorders in a mammal related to aberrent Stat3 pathway activity; to pharmaceutical compositions containing such compounds. | 05-12-2011 |
20100286378 | Composition of Asymmetric RNA Duplex As MicroRNA Mimetic or Inhibitor - The present invention provides double-stranded RNA molecules that are asymmetrical in strand length. The RNA molecule of the invention, the asymmetric RNA duplex, has one or two overhangs at the end. In one aspect, these novel RNA duplex molecules serve as effective mimetics of miRNA. In another aspect, they are designed to function as effective inhibitors of miRNA. Accordingly, the RNA molecules of the present invention can be used to modulate miRNA pathway activities, with tremendous implications for research, drug discovery and development, and treatment of human diseases. | 11-11-2010 |