Patent application number | Description | Published |
20090232791 | METHODS AND COMPOSITIONS FOR TISSUE REGENERATION - Disclosed is a kit comprising a first component comprising fibrinogen, aprotinin, and a buffered solution, and a second component comprising, fibroblasts, keratinocytes, thrombin, glycerol, human serum albumin, and a buffered solution, wherein the first and second components are comprised in separate sterile containers. | 09-17-2009 |
20100068281 | METHODS AND COMPOSITIONS FOR TISSUE REGENERATION - Disclosed is a composition comprising cells comprising keratinocytes or fibroblasts, or mixtures thereof, that secrete one or more biologically active molecules selected from the group consisting of GM-CSF, VEGF, KGF, bFGF, TGFβ, angiopoietin, EGF, IL-Iβ, IL-6, IL-8, TGFα, and TNFα and an extracellular matrix comprising alginate, wherein the cells are allogeneic and mitotically inactive. | 03-18-2010 |
20110083987 | METHODS AND COMPOSITIONS FOR TISSUE REGENERATION - A kit is disclosed that includes a first component comprising alginate, wherein the first component is comprised in a first sterile vial, and a second component comprising cells comprising keratinocytes or fibroblasts, or mixtures thereof, that secrete one or more biologically active molecules selected from the group consisting of GM-CSF, VEGF, KGF, bFGF, TGFβ, angiopoietin, EGF, IL-Iβ, IL-6, IL-8, TGFα, and TNFα, wherein the cells are allogeneic and mitotically inactive, a buffered solution, and human serum albumin or a cryoprotectant, wherein the second component is comprised in a second sterile vial. | 04-14-2011 |
20120134962 | METHODS AND COMPOSITIONS FOR TISSUE REGENERATION - Disclosed is a method of treating a wound comprising applying a composition to a wound site on a patient in need of wound treatment, wherein the composition comprises mitotically inactive allogeneic cells that secrete one or more biologically active molecules selected from the group consisting of GM-CSF, VEGF, KGF, bFGF, TGFβ, angiopoietin, EGF, IL-Iβ, IL-6, IL-8, TGFα, and TNFα, and wherein the cells are keratinocytes or fibroblasts, or mixtures thereof. | 05-31-2012 |
20130052168 | METHODS AND COMPOSITIONS FOR TISSUE REGENERATION - A kit is disclosed that includes a first component comprising alginate, wherein the first component is comprised in a first sterile vial, and a second component comprising cells comprising keratinocytes or fibroblasts, or mixtures thereof, that secrete one or more biologically active molecules selected from the group consisting of GM-CSF, VEGF, KGF, bFGF, TGFβ, angiopoietin, EGF, IL-Iβ, IL-6, IL-8, TGFα, and TNFα, wherein the cells are allogeneic and mitotically inactive, a buffered solution, and human serum albumin or a cryoprotectant, wherein the second component is comprised in a second sterile vial. | 02-28-2013 |
Patent application number | Description | Published |
20080308931 | Electronic Structures Including Barrier Layers Defining Lips - Forming an electronic structure may include forming a seed layer on a substrate, and forming a mask on the seed layer. The mask may include an aperture therein exposing a portion of the seed layer, and a barrier layer may be formed on the exposed portion of the seed layer. A bump may be formed on the barrier layer, and the mask may be removed. In addition, portions of the seed layer may be selectively removed using the barrier layer as an etch mask. | 12-18-2008 |
20090212427 | Solder Structures Including Barrier Layers with Nickel and/or Copper - An electronic device may include an electronic substrate, and an under bump seed metallurgy layer on the electronic substrate. A barrier layer may be provided on the under bump seed metallurgy layer so that the under bump seed metallurgy layer is between the barrier layer and the electronic substrate, and the barrier layer may include nickel and/or copper. Moreover, portions of the under bump seed metallurgy layer may be undercut relative to portions of the barrier layer. In addition, a solder layer may be provided on the barrier layer so that the barrier layer is between the solder layer and the under bump seed metallurgy layer. | 08-27-2009 |
20110037171 | Electronic Structures Including Barrier Layers and/or Oxidation Barriers Defining Lips and Related Methods - An electronic device may include a substrate, a seed layer on the substrate, a barrier layer on the seed layer opposite the substrate, and an oxidation barrier on the barrier layer opposite the seed layer. The barrier layer and the seed layer comprise different materials, and the oxidation barrier and the barrier layer may comprise different materials. The seed layer may be undercut relative to the barrier layer and/or relative to the oxidation barrier so that the barrier layer and/or the oxidation barrier define a lip extending beyond the seed layer in a direction parallel with respect to a surface of the substrate. Related methods are also discussed. | 02-17-2011 |
Patent application number | Description | Published |
20100035176 | IMAGING ELEMENT AND METHOD USING DIFFERENTIAL LIGHT SCATTERING - An imaging element is used to provide images based on the difference in index of refraction caused by imaging actinic radiation. Imaging provides desired results by the creation or elimination of light scattering in a two-phase imaging medium in which at least one phase contains a material that is capable of having a refractive index change in response to imaging actinic radiation. For example, if the refractive indices of the two phases are initially matched, imaging can cause a mismatch in imaged regions. Alternatively, the refractive indices of the two phases can be initially mismatched and imaging can create a match of refractive indices in imaged regions. An image can be produced using a controlled amount of imaging actinic radiation without any chemical processing or heating. | 02-11-2010 |
20100081749 | EXFOLIATED NANOCOMPOSITES AND ARTICLES CONTAINING SAME - A polymeric nanocomposite comprises a non-polar hyperbranched polystyrene resin. An exfoliated or intercalated onium functionalized clay is dispersed within the resin. Such nanocomposites are more compatible with non-polar polymer matrices used in various articles of manufacture. | 04-01-2010 |
20110184113 | EXFOLIATED NANOCOMPOSITES AND ARTICLES CONTAINING SAME - A polymeric nanocomposite comprises a non-polar hyperbranched polystyrene resin. An exfoliated or intercalated onium functionalized clay is dispersed within the resin. Such nanocomposites are more compatible with non-polar polymer matrices used in various articles of manufacture. | 07-28-2011 |
20120274685 | RECIRCULATING FLUID PRINTING SYSTEM AND METHOD - A printing system for applying a printing fluid to a substrate, comprising a printing fluid applicator and a recirculating printing fluid supply supplying printing fluid to the applicator, wherein the printing fluid comprises water, colorant, acrylic latex polymer, and a water dispersible polyurethane additive having an acid number greater than 50. The acrylic latex polymer provides increased optical density for printed images, and the water dispersible polyurethane additive enables the latex-containing printing fluid to be recirculated for extended periods without significant fluid destabilization or pressure build up or filter clogging. Also disclosed is method of continuous inkjet printing employing such a printing system. | 11-01-2012 |
20120277366 | INKJET PRINTING FLUID - An inkjet printing fluid composition comprising water, colorant, acrylic latex polymer, and a water dispersible polyurethane additive having an acid number greater than 50, preferably between 50 and 150, more preferably from 60 to 100, and most preferably from 60 to 90. The invention provides inkjet printing fluid compositions, such as pigment-based inkjet printing inks, which contain an acrylic latex polymer which provides increased optical density for printed images, and a water dispersible polyurethane additive that enables the latex-containing printing fluid to be recirculated for extended periods in a recirculating printing fluid printing system without significant fluid destabilization or pressure build up or filter clogging. The invention further provides a method for printing an inkjet image comprising: I) providing an inkjet printing fluid according to the invention; and II) jetting the inkjet printing fluid in the form of ink drops onto a recording element to form a printed image. | 11-01-2012 |
20130285061 | SEMICONDUCTOR DEVICES AND METHODS OF PREPARATION - An organic film-forming polymer has a T | 10-31-2013 |
20140128551 | ORGANIC POLYMERIC MULTI-METALLIC COMPOSITES - Organic polymeric multi-metallic alkoxide or aryloxide composites are used as dielectric materials in various devices with improved properties such as improved mobility. These composites comprise an organic polymer comprising metal coordination sites, and multi-metallic alkoxide or aryloxide molecules that are coordinated with the organic polymer, the multi-metallic alkoxide or aryloxide molecules being represented by: | 05-08-2014 |
20140147885 | PARTICLES CONTAINING ORGANIC CATALYTIC MATERIALS AND USES - Semi-permeable particle can be used to facilitate chemical reactions such as catalytic reactions. The semi-permeable particles are permeable to molecules having a molar mass of 1000 Daltons or less and have a mode particle size of at least 1 μm. The semi-permeable particles have multiple discrete cavities containing an aqueous solution or suspension of an organic catalytic material. The semi-permeable particles are also impermeable to the organic catalytic materials so they are retained within the multiple discrete cavities, and the semi-permeable particles can be reused multiple times for the same or different chemical reaction. | 05-29-2014 |
20140148330 | SEMI-PERMEABLE PARTICLES HAVING METALLIC CATALYSTS AND USES - Semi-permeable particle can be used to facilitate chemical reactions. The semi-permeable particles are permeable to molecules having a molar mass of 1000 Daltons or less, have a mode particle size of at least 1 μm, and comprise nanoparticles of catalytically active metallic materials disposed within at least some of multiple discrete cavities in the continuous polymeric phase. The nanoparticles of catalytically active metallic materials (a) comprise one or more elements selected from Groups 8, 9, 10, and 11 of the Periodic Table, and (b) have an effective diameter of at least 1 nm and up to and including 200 nm. | 05-29-2014 |
20140148523 | POROUS PARTICLES AND METHODS OF MAKING THEM - Porous particles can be prepared using an evaporative limited coalescence process in which one or more discrete cavities are stabilized within the continuous polymeric solid phase of the porous particles. The one or more discrete cavities have inner walls and are dispersed within the continuous polymeric solid phase. The porous particles further comprise a cavity stabilizing hydrocolloid on the inner walls of the one or more discrete cavities, and an amphiphilic (low HLB) block copolymer that is disposed at the interface of the discrete cavities and the continuous polymeric solid phase. | 05-29-2014 |
Patent application number | Description | Published |
20140287349 | THIOSULFATE POLYMER COMPOSITIONS AND ARTICLES - A thiosulfate polymer composition includes an electron-accepting photosensitizer component, either as a separate compound or as an attachment to the thiosulfate polymer. The thiosulfate polymer composition can be applied to various articles, or used to form a predetermined polymeric pattern after photothermal reaction to form crosslinked disulfide bonds, removing non-crosslinked polymer, and reaction with a disulfide-reactive material. Such thiosulfate polymer compositions can also be used to sequester metals in nanoparticulate form, and as a way for shaping human hair in hairdressing operations. | 09-25-2014 |
20140287365 | FORMING PATTERNS USING THIOSULFATE POLYMER COMPOSITIONS - A thiosulfate polymer composition includes an electron-accepting photosensitizer component, either as a separate compound or as an attachment to the thiosulfate polymer. The thiosulfate polymer composition can be applied to various articles and used to form a predetermined polymeric pattern after photothermal reaction to form crosslinked disulfide bonds, removing non-crosslinked polymer, and reaction with a disulfide-reactive material. | 09-25-2014 |
20140288253 | THIOSULFATE POLYMERS - A thiosulfate polymer includes both an electron-accepting photosensitizer component and thiosulfate groups in the same molecule, arranged in random order along the backbone. The thiosulfate polymer composition can be formulated into compositions and applied to various articles, or used to form a predetermined polymeric pattern after photothermal reaction to form crosslinked disulfide bonds, removing non-crosslinked polymer, and reaction with a disulfide-reactive material. Such thiosulfate polymer compositions can also be used to sequester metals in nanoparticulate form, and as a way for shaping human hair in hairdressing operations. | 09-25-2014 |
20150011699 | ORGANIC POLYMERIC BI-METALLIC COMPOSITES - Organic polymeric bi-metallic alkoxide or aryloxide composites are used as dielectric materials in various devices with improved properties such as improved mobility. These composites comprise a poly(meth)acrylate or polyester having metal coordination sites, and the same or different bi-metallic alkoxide or aryloxide molecules that are coordinated with the organic polymer. The bi-metallic alkoxide or aryloxide molecules can be represented by Structure (I) shown herein. Such composites are generally soluble at room temperature in various organic solvents and be provided in homogeneous organic solvent solutions that can be suitably applied to a substrate to form dielectric materials. | 01-08-2015 |