Patent application number | Description | Published |
20100055185 | COMPOSITION AND METHOD FOR TREATING HEMORRHOIDS AND/OR ANORECTAL DISORDERS - The invention provides an oil-in-water emulsion useful in the treatment of anorectal disorders comprising a local anesthetic, vasoconstrictor, glycerin and water, and method of preparation of the emulsion and a method for treating hemorrhoids using the composition of the invention. | 03-04-2010 |
20110085994 | Sunscreen Compositions - The present invention provides a taste-masked sunscreen composition comprising at least one sunscreen and a spider ester wherein the sunscreen and the spider ester are in intimate association. A method of making the taste-masked sunscreen composition is provided. | 04-14-2011 |
20120264757 | Composition and Method for Treating Hemorrhoids and/or Anorectal Disorders - The invention provides an oil-in-water emulsion useful in the treatment of anorectal disorders comprising a local anesthetic, vasoconstrictor, glycerin and water, and method of preparation of the emulsion and a method for treating hemorrhoids using the composition of the invention. | 10-18-2012 |
20140243364 | ENHANCED STABILITY OF NOVEL LIQUID COMPOSITIONS - The present invention relates to compositions of pharmaceutical agents in combination with additional pharmaceutical agents in a mixture of polyethylene glycol, polyvinylpyrrolidone, and propylene glycol and a process of making the compositions. | 08-28-2014 |
20150174182 | PRE MOISTENED WIPES FOR USE IN TREATING ANAL RECTAL IRRITATIONS AND DISORDERS - Many people who suffer from anal rectal discomfort and disorders need fibrous sheet materials which are pre-moistened with a solution for improved cleansing without excessive skin irritation. The invention particularly concerns wet wipes, such as anal-rectal wipes, which comprises a solution comprising hamamelis water or witch hazel, to effectively treat anal-rectal disorders. | 06-25-2015 |
20150305996 | SUNSCREEN COMPOSITIONS - The present invention provides a taste-masked sunscreen composition comprising at least one sunscreen and a spider ester wherein the sunscreen and the spider ester are in intimate association. A method of making the taste—masked sunscreen composition is provided. | 10-29-2015 |
Patent application number | Description | Published |
20100088987 | VENTILATED SIDING SYSTEM - A lap siding system for use on an exterior of a building that includes a plank having a length and a complementary member, such as corner trim, door trim, etc. The lap siding system further includes a flashing disposed between the plank and the complementary member. The plank, the complementary member, and the flashing are adapted to be coupled to an exterior of a substructure of a building. At least one of the plank, the complementary member, and the flashing is adapted to create at least one ventilation channel between the substructure of the building and at least one of the plank, the complementary member, and the flashing. | 04-15-2010 |
20100212234 | SOFFIT AND FASCIA SIDING SYSTEM - A soffit and fascia system for use on an exterior of a building that includes a soffit member, a soffit flashing, a fascia member, and a fascia flashing. The soffit flashing is adapted to be secured to an exterior of the building and to retain the rear portion of the soffit member in a desired configuration with concealed fasteners. The fascia flashing may be adapted to be coupled to the fascia member in the lower portion thereof and adapted to at least partially retain the forward portion of the soffit member in the desired configuration. The soffit member may include two or more soffit segments. The soffit member may further include at least one soffit joint adapted to be disposed between a first soffit segment and a second soffit segment and to couple the first and second soffit segments together. | 08-26-2010 |
Patent application number | Description | Published |
20100242342 | CERIUM-CONTAINING NANOPARTICLES - A process for making cerium-containing oxide nanoparticles includes providing an aqueous reaction mixture containing a source of cerous ion, optionally a source of one or more metal ions (M) other than cerium, a source of hydroxide ion, at least one monoether carboxylic acid nanoparticle stabilizer wherein the molar ratio of said monoether carboxylic acid nanoparticle stabilizers to total metal ions is greater than 0.2, and an oxidant at an initial temperature in the range of about 20° C. to about 95° C. Temperature conditions are provided effective to enable oxidation of cerous ion to ceric ion, thereby forming a product dispersion of cerium-containing oxide nanoparticles, optionally containing one or more metal ions (M), Ce | 09-30-2010 |
20130192122 | RAPID METHOD FOR PRODUCTION OF CERIUM-CONTAINING OXIDE ORGANIC COLLOIDS - Improved methods for producing colloidal dispersions of cerium-containing oxide nanoparticles in substantially non-polar solvents is disclosed. The cerium-containing oxide nanoparticles of an aqueous colloid are transferred to a substantially non-polar liquid comprising one or more amphiphilic materials, one or more low-polarity solvents, and, optionally, one or more glycol ether promoter materials. The transfer is achieved by mixing the aqueous and substantially non-polar materials, forming an emulsion, followed by a phase separation into a remnant polar solution phase and a substantially non-polar organic colloid phase. The organic colloid phase is then collected. The promoter functions to speed the transfer of nanoparticles to the low-polarity phase. The promoter accelerates the phase separation, and also provides improved colloidal stability of the final substantially non-polar colloidal dispersion. The glycol ether promoter reduces the temperature necessary to achieve the phase separation, while providing high extraction yield of nanoparticles into the low-polarity organic phase. In addition, use of particular amphiphilic materials, such as heptanoic acid or octanoic acid, enable efficient extractions at ambient temperatures without the use of a glycol ether promoter. | 08-01-2013 |
20130197107 | METHOD FOR PRODUCTION OF STABLE CERIUM OXIDE ORGANIC COLLOIDS - An improved process for producing substantially non-polar doped or un-doped cerium oxide nanoparticle dispersions is disclosed. The cerium-containing oxide nanoparticles of an aqueous colloid are transferred to a substantially non-polar liquid comprising one or more amphiphilic materials, one or more low-polarity solvents, and one or more glycol ether promoter materials. The transfer is achieved by mixing the aqueous and substantially non-polar materials, forming an emulsion, followed by a phase separation into a remnant polar solution phase and a substantially non-polar organic colloid phase. The organic colloid phase is then collected. The promoter functions to speed the transfer of nanoparticles to the low-polarity phase. The promoter accelerates the phase separation, and also provides improved colloidal stability of the final substantially non-polar colloidal dispersion. Importantly, the glycol ether promoter reduces the temperature necessary to achieve the phase separation, while providing high extraction yield of nanoparticles into the low-polarity organic phase. | 08-01-2013 |
20150148873 | Therapeutic Warming Fluid - A solution of erythritol and water, saturated at a desired therapeutic temperature, is contained in a hot water bottle, or other appropriate vessel, for the purpose of therapeutic warming, for example, for the relief of gastro-intestinal or muscular discomfort. The heat of crystallization of the erythritol significantly extends the time of therapeutic warming. Nucleation agents are added to delay the formation of large crystals upon cooling of the solution. The resulting product is non-toxic to humans and to canines. | 05-28-2015 |
Patent application number | Description | Published |
20100112250 | HOT MELT ADHESIVES FOR ROLL-APPLIED LABELS - Disclosed are hot-melt adhesives prepared from polyesters containing 1,4-cyclohexane-dicarboxylic acid as a diacid component and a diol component containing at least two diols chosen from 1,4-cyclohexanedimethanol, triethylene glycol, and diethylene glycol. These adhesives set up rapidly within a well-defined temperature window. The hot-melt adhesives can be used in a variety of applications, but are especially suited as seaming adhesives for roll-applied labels. These adhesives have melting temperatures and crystallization properties that allow their application at temperatures cool enough to prevent curling and premature shrinkage of the shrink label during seaming, and yet produce strong label seams that can withstand the elevated temperatures of a shrink tunnel without sacrificing line speed. Also disclosed are labeled containers and a process for applying a roll-on, shrink label to a container using the hot-melt adhesives of the invention. | 05-06-2010 |
20100112251 | AROMATIC-ALIPHATIC POLYESTER HOT MELT ADHESIVES FOR ROLL-APPLIED LABELS - Disclosed are hot-melt adhesives prepared from aromatic-aliphatic polyesters containing terephthalic acid in combination with adipic acid, glutaric acid, or a mixture thereof, as diacid components and a diol component containing 1,4-butanediol, 1,6-hexanediol, or a combination thereof. These adhesives set up rapidly within a well-defined temperature window. The hot-melt adhesives can be used in a variety of applications, but are especially suited as seaming adhesives for roll-applied labels. These adhesives have melting temperatures and crystallization properties that allow their application at temperatures cool enough to prevent curling and premature shrinkage of the shrink label during seaming, and yet produce strong label seams that can withstand the elevated temperatures of a shrink tunnel without sacrificing line speed. Also disclosed are labeled containers and a process for applying a roll-on, shrink label to a container using the hot-melt adhesives of the invention. | 05-06-2010 |
Patent application number | Description | Published |
20140208741 | TURBOCHARGER WITH AXIAL TURBINE STAGE - A turbocharger is disclosed for use with an engine. The turbocharger may include a housing at least partially defining a compressor shroud and a turbine shroud. The turbine shroud may form a volute having an inlet configured to receive exhaust from an exhaust manifold of the engine in a tangential direction. The volute may also include an axial channel disposed downstream of the inlet. The turbocharger may also include a turbine wheel disposed within the turbine shroud that may be configured to receive exhaust from the axial channel. The turbocharger may also include a compressor wheel disposed within the compressor shroud, and a shaft connecting the turbine wheel to the compressor wheel. The turbocharger may also include a nozzle ring disposed within the axial channel at a location upstream of the turbine wheel. | 07-31-2014 |
20140318119 | COOLING ASSEMBLY HAVING MULTIPLE COOLERS - A cooling assembly having multiple coolers is disclosed. The cooling assembly may include a housing at least partially defining a first chamber and a second chamber adjacent to the first chamber and substantially isolated from the first chamber. The housing may also at least partially define first and second inlets configured to direct air into the first chamber in parallel, and first and second outlets configured to direct air out of the second chamber in parallel. The cooling assembly may also include a first cooler disposed in the first chamber, and a second cooler disposed in the second chamber. | 10-30-2014 |
20140318120 | AIR HANDLING SYSTEM HAVING COOLING ASSEMBLY - An air handling system having a cooling assembly is disclosed. The air handling system may include a first turbocharger having a first compressor, a second turbocharger having a second compressor connected in parallel with the first compressor, and a third turbocharger fluidly connected to the first and second turbochargers. The third turbocharger may have a third compressor connected downstream of the first and second compressors. The air handling system may also include a cooling assembly connected to the first, second, and third turbochargers. The air handling system may further include a first passage fluidly connecting the first turbocharger to a first side surface of the cooling assembly, and a second passage fluidly connecting the second turbocharger to a second side surface of the cooling assembly opposite the first side surface. The first and second passages may be configured to direct compressed air into the cooling assembly in generally opposite directions. | 10-30-2014 |