Patent application number | Description | Published |
20090123558 | Polarized Scorpion Venom Solution and a Method for Making Polarized Scorpion Venom Solution - Various embodiments of this invention disclose a polarized dilute blue scorpion venom solution, a method for making a polarized dilute scorpion venom solution, and a method for administering dilute scorpion venom solution. The polarized dilute scorpion venom solution relieves pain, improves immune-system response, treats cancer, prevents cancer, improves quality of sleep, reduces inflammation, and minimizes negative biological response to chemotherapy and radiation treatment. | 05-14-2009 |
20120082701 | POLARIZED SCORPION VENOM SOLUTION AND A METHOD FOR MAKING POLARIZED SCORPION VENOM SOLUTION - The present invention discloses a polarized dilute blue scorpion venom solution and a method for administering dilute scorpion venom solution. The polarized dilute scorpion venom solution provides treatment to various diseases and conditions such as relieving pain, improving immune-system responses, treating cancer, preventing cancer, improving quality of sleep, reducing inflammation, and minimizing negative biological response to chemotherapy and radiation treatment | 04-05-2012 |
20130216587 | POLARIZED SCORPION VENOM SOLUTION AND A METHOD FOR MAKING POLARIZED SCORPION VENOM SOLUTION - The present invention discloses a polarized dilute blue scorpion venom solution and a method for administering dilute scorpion venom solution. The polarized dilute scorpion venom solution provides treatment to various diseases and conditions such as relieving pain, improving immune-system responses, treating cancer, preventing cancer, improving quality of sleep, reducing inflammation, and minimizing negative biological response to chemotherapy and radiation treatment | 08-22-2013 |
Patent application number | Description | Published |
20110071087 | POLYPEPTIDES HAVING MODULATORY EFFECTS ON CELLS - The present invention relates to peptides and polypeptides having the sequence SAVTFAVCAL or variants thereof, capable of binding to Calcineurin and/or to NS5A-TP2 and to their use in therapy, as well as to nucleic acid sequences and vectors encoding these peptides and polypeptides, and to cells comprising said polypeptides, nucleic acid sequences or vectors. The invention further relates to the use of the peptides, polypeptides or their derivatives to bring about phenotypic changes in mammalian cells, particularly to up-regulate calcineurin activity. The invention finally relates to a method for intracellular identification of substances which bind to calcineurin and which modulate the physiological effects of calcineurin. | 03-24-2011 |
20120245092 | POLYPEPTIDES HAVING MODULATORY EFFECTS ON CELLS - The present invention relates to peptides and polypeptides having the sequence SAVTFAVCAL or variants thereof, capable of binding to Calcineurin and/or to NS5A-TP2 and to their use in therapy, as well as to nucleic acid sequences and vectors encoding these peptides and polypeptides, and to cells comprising said polypeptides, nucleic acid sequences or vectors. The invention further relates to the use of the peptides, polypeptides or their derivatives to bring about phenotypic changes in mammalian cells, particularly to up-regulate calcineurin activity. The invention finally relates to a method for intracellular identification of substances which bind to calcineurin and which modulate the physiological effects of calcineurin. | 09-27-2012 |
Patent application number | Description | Published |
20090297821 | COMPOSITE UPHOLSTERY FABRIC PANELS WITH ENLARGED GRAPHITE INTUMESCENT PARTICLES - Fabric layers and composite articles that incorporate graphite-containing coatings that do not stain are provided. A fabric layer for use as a flame and heat blocking component of an upholstered article includes intumescent graphite particles that are configured to swell and char in the presence of flame so as to form a barrier to flame, hot gases and heat for a predetermined period of time. The graphite particles have a size greater than about 150 microns which prevents the particles from being drawn to a surface of an upholstered article during sewing and quilting operations. | 12-03-2009 |
20090305025 | COMPOSITE UPHOLSTERY FABRIC PANELS WITH ENLARGED GRAPHITE INTUMESCENT PARTICLES - Fabric layers and composite articles that incorporate graphite-containing coatings that do not stain are provided. A fabric layer for use as a flame and heat blocking component of an upholstered article includes intumescent graphite particles that are configured to swell and char in the presence of flame so as to form a barrier to flame, hot gases and heat for a predetermined period of time. The graphite particles have a size greater than about 150 microns which prevents the particles from being drawn to a surface of an upholstered article during sewing and quilting operations. | 12-10-2009 |
20110283458 | Ticking Layers that Reduce Flame Propagation and Upholstered Articles Incorporating Same - A method of producing a ticking includes laminating a flame retardant backer to film material, wherein the backer releases flame retardant in the vapor phase that reduces the rate of flame propagation along the film material, when the ticking layer is exposed to flame. The backer is laminated in direct contact with the film material. In some embodiments, the laminated ticking is configured to release less than 15 MJ of heat in the first ten minutes when exposed to a flame in accordance with the testing protocol set forth in 16 CFR 1633. Upholstered articles, such as mattresses, mattress foundations, and articles of furniture, may incorporate the ticking layer. | 11-24-2011 |
20120246832 | Flame Resistant Filler Cloth and Mattresses Incorporating Same - A filler cloth includes cellulosic fibers treated with a flame retardant chemistry such that the filler cloth has a char length of less than about nine inches when tested in accordance with NFPA 701, such that thermal shrinkage of the filler cloth at 400° F. is less than about 35% in any direction, and such that the filler cloth maintains flame and heat resistant integrity when impinged with a gas flame in accordance with testing protocols set forth in Technical Bulletin 603 of the State of California Department of Consumer Affairs. The filler cloth cellulosic fibers are treated with a flame retardant chemistry such that the filler cloth has a Frazier air permeability of less than about 400 cfm and a thermal resistance rating of at least about 3 when tested according to NFPA 2112. | 10-04-2012 |
20120266385 | Flame Resistant Filler Cloth and Mattresses Incorporating Same - A filler cloth includes cellulosic fibers treated with a flame retardant chemistry such that the filler cloth has a char length of less than about nine inches when tested in accordance with NFPA 701, such that thermal shrinkage of the filler cloth at 400° F. is less than about 35% in any direction, and such that the filler cloth maintains flame and heat resistant integrity when impinged with a gas flame in accordance with testing protocols set forth in Technical Bulletin 603 of the State of California Department of Consumer Affairs. The filler cloth cellulosic fibers are treated with a flame retardant chemistry such that the filler cloth has a Frazier air permeability of less than about 400 cfm and a thermal resistance rating of at least about 3 when tested according to NFPA 2112. | 10-25-2012 |
20130117940 | UPHOLSTERY PANELS WITH FIRE RESISTANT BACKING LAYER - A composite upholstery panel includes a layer of ticking fabric, a layer of flame and heat-resistant backing fabric, and a layer of resilient flame and heat-resistant cushioning material sandwiched between the layer of ticking fabric and the layer of backing fabric. The composite upholstery panel maintains flame and heat resistant integrity when impinged at any location with a gas flame in accordance with testing protocol set forth in Technical Bulletin 603 of the State of California Department of Consumer Affairs (TB-603). However, individually, the ticking layer, backing layer and cushioning layer would fail to maintain flame and heat resistant integrity when impinged with a gas flame in accordance with testing protocol set forth in TB-603. | 05-16-2013 |