Patent application number | Description | Published |
20090036355 | Antisense Modulation of PTP1B Expression - Compositions and methods are provided for decreasing blood glucose levels in an animal or for preventing or de-laying the onset of a rise in blood glucose levels in an animal, comprising administering to said animal an antisense inhibitor of PTP1B expression in combination with at least one glucose-lowering drug. The present invention is also directed to compositions and methods for improving insulin sensitivity in an animal or for preventing or delaying the onset of insulin resistance in an animal. Also provided are compositions and methods for treating or preventing a metabolic condition in an animal. The metabolic condition may be, e.g., diabetes or obesity. | 02-05-2009 |
20090292006 | COMPOUNDS AND METHODS FOR MODULATING EXPRESSION OF DGAT2 - The present disclosure describes short antisense compounds, including such compounds comprising chemically-modified high-affinity monomers 8-16 monomers in length. Certain such short antisense compound are useful for the reduction of target nucleic acids and/or proteins in cells, tissues, and animals with increased potency and improved therapeutic index. Thus, provided herein are short antisense compounds comprising high-affinity nucleotide modifications useful for reducing a target RNA in vivo. Such short antisense compounds are effective at lower doses than previously described antisense compounds, allowing for a reduction in toxicity and cost of treatment. In addition, the described short antisense compounds have greater potential for oral dosing. | 11-26-2009 |
20090306005 | COMPOUNDS AND METHODS FOR MODULATING EXPRESSION OF PCSK9 - The present disclosure describes short antisense compounds, including such compounds comprising chemically-modified high-affinity monomers 8-16 monomers in length. Certain such short antisense compound are useful for the reduction of target nucleic acids and/or proteins in cells, tissues, and animals with increased potency and improved therapeutic index. Thus, provided herein are short antisense compounds comprising high-affinity nucleotide modifications useful for reducing a target RNA in vivo. Such short antisense compounds are effective at lower doses than previously described antisense compounds, allowing for a reduction in toxicity and cost of treatment. In addition, the described short antisense compounds have greater potential for oral dosing. | 12-10-2009 |
20090306179 | COMPOUNDS AND METHODS FOR MODULATING EXPRESSION OF GCGR - The present disclosure describes short antisense compounds, including such compounds comprising chemically-modified high-affinity monomers 8-16 monomers in length. Certain such short antisense compound are useful for the reduction of target nucleic acids and/or proteins in cells, tissues, and animals with increased potency and improved therapeutic index. Thus, provided herein are short antisense compounds comprising high-affinity nucleotide modifications useful for reducing a target RNA in vivo. Such short antisense compounds are effective at lower doses than previously described antisense compounds, allowing for a reduction in toxicity and cost of treatment. In addition, the described short antisense compounds have greater potential for oral dosing. | 12-10-2009 |
20090306180 | COMPOUNDS AND METHODS FOR MODULATING EXPRESSION APOB - The present disclosure describes short antisense compounds, including such compounds comprising chemically-modified high-affinity monomers 8-16 monomers in length. Certain such short antisense compound are useful for the reduction of target nucleic acids and/or proteins in cells, tissues, and animals with increased potency and improved therapeutic index. Thus, provided herein are short antisense compounds comprising high-affinity nucleotide modifications useful for reducing a target RNA in vivo. Such short antisense compounds are effective at lower doses than previously described antisense compounds, allowing for a reduction in toxicity and cost of treatment. In addition, the described short antisense compounds have greater potential for oral dosing. | 12-10-2009 |
20090318532 | COMPOUNDS AND METHODS FOR MODULATING EXPRESSION OF PTP1B - The present disclosure describes short antisense compounds, including such compounds comprising chemically-modified high-affinity monomers 8-16 monomers in length. Certain such short antisense compound are useful for the reduction of target nucleic acids and/or proteins in cells, tissues, and animals with increased potency and improved therapeutic index. Thus, provided herein are short antisense compounds comprising high-affinity nucleotide modifications useful for reducing a target RNA in vivo. Such short antisense compounds are effective at lower doses than previously described antisense compounds, allowing for a reduction in toxicity and cost of treatment. In addition, the described short antisense compounds have greater potential for oral dosing. | 12-24-2009 |
20090326040 | ANTISENSE MODULATION OF APOLIPOPROTEIN B EXPRESSION - Methods for the rapid and long-term lowering of lipid levels in human subjects and for the treatment of conditions associated with elevated LDL-cholesterol and elevated apolipoprotein B are provided. | 12-31-2009 |
20090326041 | COMPOUNDS AND METHODS FOR MODULATING EXPRESSION OF SGLT2 - The present disclosure describes short antisense compounds, including such compounds comprising chemically-modified high-affinity monomers 8-16 monomers in length. Certain such short antisense compound are useful for the reduction of target nucleic acids and/or proteins in cells, tissues, and animals with increased potency and improved therapeutic index. Thus, provided herein are short antisense compounds comprising high-affinity nucleotide modifications useful for reducing a target RNA in vivo. Such short antisense compounds are effective at lower doses than previously described antisense compounds, allowing for a reduction in toxicity and cost of treatment. In addition, the described short antisense compounds have greater potential for oral dosing. | 12-31-2009 |
20100297105 | ADMINISTERING ANTISENSE OLIGONUCLEOTIDES COMPLEMENTARY TO HUMAN APOLIPOPROTEIN B - Methods for long-term lowering of lipid levels in human subjects and for the treatment of conditions associated with elevated LDL-cholesterol and elevated ApoB are provided. | 11-25-2010 |
20110065775 | COMPOUNDS AND METHODS FOR MODULATING EXPRESSION OF SGLT2 - The present disclosure describes short antisense compounds, including such compounds comprising chemically-modified high-affinity monomers 8-16 monomers in length. Certain such short antisense compound are useful for the reduction of target nucleic acids and/or proteins in cells, tissues, and animals with increased potency and improved therapeutic index. Thus, provided herein are short antisense compounds comprising high-affinity nucleotide modifications useful for reducing a target RNA in vivo. Such short antisense compounds are effective at lower doses than previously described antisense compounds, allowing for a reduction in toxicity and cost of treatment. In addition, the described short antisense compounds have greater potential for oral dosing. | 03-17-2011 |
20110256217 | PULSATILE RELEASE COMPOSITIONS AND METHODS FOR ENHANCED INTESTINAL DRUG ABSORPTION - Delayed release oral pharmaceutical formulations and methods for enhanced intestinal drug absorption. The formulation comprises a first population of carrier particles comprising a drug and a penetration enhancer which are released at a first location in the intestine, and a second population of carrier particles comprising a penetration enhancer and a delayed release coating or matrix. This penetration enhancer is released at a second location in the intestine downstream from the first location and enhances absorption of the drug when it reaches the second location. | 10-20-2011 |
20120115926 | ANTISENSE MODULATION OF APOLIPOPROTEIN B EXPRESSION - Methods for the rapid and long-term lowering of lipid levels in human subjects and for the treatment of conditions associated with elevated LDL-cholesterol and elevated apolipoprotein B are provided. | 05-10-2012 |
20120208864 | COMPOUNDS AND METHODS FOR MODULATING EXPRESSION OF GCGR - The present disclosure describes short antisense compounds, including such compounds comprising chemically-modified high-affinity monomers 8-16 monomers in length. Certain such short antisense compound are useful for the reduction of target nucleic acids and/or proteins in cells, tissues, and animals with increased potency and improved therapeutic index. Thus, provided herein are short antisense compounds comprising high-affinity nucleotide modifications useful for reducing a target RNA in vivo. Such short antisense compounds are effective at lower doses than previously described antisense compounds, allowing for a reduction in toxicity and cost of treatment. In addition, the described short antisense compounds have greater potential for oral dosing. | 08-16-2012 |
20120264806 | OLIGOMERIC COMPOUNDS AND EXCIPIENTS - The present invention provides method of optimizing the efficacy and potency of antisense compounds. In certain embodiments, the invention provides assays useful for determining favorable oligonucleotide characteristics and excipients for improved cellular uptake. | 10-18-2012 |
20130165496 | COMPOUNDS AND METHODS FOR MODULATING EXPRESSION OF GCCR - The present disclosure describes short antisense compounds, including such compounds comprising chemically-modified high-affinity monomers 8-16 monomers in length. Certain such short antisense compound are useful for the reduction of target nucleic acids and/or proteins in cells, tissues, and animals with increased potency and improved therapeutic index. Thus, provided herein are short antisense compounds comprising high-affinity nucleotide modifications useful for reducing a target RNA in vivo. Such short antisense compounds are effective at lower doses than previously described antisense compounds, allowing for a reduction in toxicity and cost of treatment. In addition, the described short antisense compounds have greater potential for oral dosing. | 06-27-2013 |
20150057329 | COMPOUNDS AND METHODS FOR MODULATING EXPRESSION APOB - The present disclosure describes short antisense compounds, including such compounds comprising chemically-modified high-affinity monomers 8-16 monomers in length. Certain such short antisense compound are useful for the reduction of target nucleic acids and/or proteins in cells, tissues, and animals with increased potency and improved therapeutic index. Thus, provided herein are short antisense compounds comprising high-affinity nucleotide modifications useful for reducing a target RNA in vivo. Such short antisense compounds are effective at lower doses than previously described antisense compounds, allowing for a reduction in toxicity and cost of treatment. In addition, the described short antisense compounds have greater potential for oral dosing. | 02-26-2015 |