Patent application number | Description | Published |
20090131316 | GLUCAGON-LIKE PEPTIDE-1 SECRETAGOGUE, GLUCAGON-LIKE PEPTIDE-1 SECRETAGOGUE FOOD OR DRINK, INHIBITOR OF POSTPRANDIAL RISE IN BLOOD GLUCOSE, AND INHIBITORY FOOD OR DRINK OF POSTPRANDIAL RISE IN BLOOD GLUCOSE - The invention relates to a GLP-1 secretagogue and an inhibitor of postprandial rise in blood glucose, containing κ-casein as an active ingredient, and a food or drink for promoting GLP-1 secretion and an inhibitory food or drink of postprandial rise in blood glucose, containing a milk-derived casein protein wherein κ-casein accounts for 60% by mass or more of the milk-derived casein. | 05-21-2009 |
20100144638 | GLUCAGON-LIKE PEPTIDE-1 SECRETAGOGUE, GLUCAGON-LIKE PEPTIDE-1 SECRETAGOGUE FOOD OR DRINK, INHIBITOR OF POSTPRANDIAL RISE IN BLOOD GLUCOSE, AND INHIBITORY FOOD OR DRINK OF POSTPRANDIAL RISE IN BLOOD GLUCOSE - The invention relates to a GLP-1 secretagogue and an inhibitor of postprandial rise in blood glucose, containing κ-casein as an active ingredient, and a food or drink for promoting GLP-1 secretion and an inhibitory food or drink of postprandial rise in blood glucose, containing a milk-derived casein protein wherein κ-casein accounts for 60% by mass or more of the milk-derived casein. | 06-10-2010 |
20120108508 | METHOD FOR PROMOTING SECRETION OF GLUCAGON-LIKE PEPTIDE-1 BY ADMINISTERING K-CASEIN - The invention relates to a GLP-1 secretagogue and an inhibitor of postprandial rise in blood glucose, containing κ-casein as an active ingredient, and a food or drink for promoting GLP-1 secretion and an inhibitory food or drink of postprandial rise in blood glucose, containing a milk-derived casein protein wherein κ-casein accounts for 60% by mass or more of the milk-derived casein. | 05-03-2012 |
Patent application number | Description | Published |
20110212910 | ANTIOXIDANT - To provide an antioxidant which is highly safe, inhibits oxidation of a biological component, in particular, a lipid, and is used as a drug, food or drink, a food additive, an external preparation for skin, or the like. The antioxidant contains 3-O-β-D-glucopyranosyl-4-methylergost-7-en-3-ol as an active ingredient. | 09-01-2011 |
20110212931 | ANTIOXIDANT - Provided is an antioxidant which is highly safe, inhibits oxidation of a biological component, in particular, a lipid, and may be used as a drug, food or drink, a food additive, an external preparation for skin, or the like. The antioxidant contains a compound selected from a cyclolanostane compound and a lophenol compound as an active ingredient. | 09-01-2011 |
Patent application number | Description | Published |
20080200004 | Method of fabricating semiconductor optical device - In a method of fabricating a semiconductor optical device, insulating structures for an alignment mark for use in electron beam exposure is formed on a primary surface of a first III-V semiconductor region. After forming the insulating structures, a second III-V semiconductor region is grown on the first III-V semiconductor region to form an epitaxial wafer. The height of the insulating structures is larger than thickness of the second III-V semiconductor region. After forming the second III-V semiconductor region, alignment for the electron beam exposure is performed. After the alignment, a resist is exposed to electron beam to form a resist mask. The resist mask has a pattern for a diffraction grating, and the resist is on the epitaxial wafer. | 08-21-2008 |
20090141764 | Semiconductor laser and method of making the same - In the method of making a semiconductor laser, a semiconductor region is grown on an active layer, and a part of the semiconductor region is etched to form a ridge structure. An insulating film is formed over the ridge structure, and a resin layer of photosensitive material is formed to bury the ridge structure. A cured resin portion and an uncured resin portion are formed in the resin layer by performing lithographic exposure of the resin layer, and the uncured resin portion is on the top of the ridge structure. The uncured resin portion is removed to form a dent which is provided on the top of the ridge structure. An overall surface of the cured resin portion and dent is etched to form an etched resin layer. An opening is formed in the etched resin layer by thinning the cured resin portion, and a part of the insulating film is exposed in the opening of the etched resin layer. The part of the insulating film is etched using the etched resin layer as a mask to form an opening in the insulating film. An electrode is formed over the ridge structure and the etched resin layer. | 06-04-2009 |
20090181522 | Method for producing semiconductor optical device - To grasp a removable particle contamination and appropriately removing a particle contamination exposing from a surface of a semiconductor layer, this production method of the semiconductor optical device includes a surface treatment step in which particle contaminations removed from a surface of a cap layer | 07-16-2009 |
20090317929 | METHOD OF PRODUCING SEMICONDUCTOR OPTICAL DEVICE - A method of producing a semiconductor optical device includes a first step of growing a stacked semiconductor layer including a first III-V group compound semiconductor layer for an active layer on a substrate; a second step of forming a silicon oxide film on the stacked semiconductor layer, the silicon oxide film having a predetermined film stress and a predetermined thickness; a third step of forming a strip-shaped groove in the silicon oxide film by etching the silicon oxide film, using a resist pattern formed on the silicon oxide film, until a surface of the stacked semiconductor layer is exposed; and a fourth step of growing a second III-V group compound semiconductor layer in the groove using the silicon oxide film as a selective mask. | 12-24-2009 |
20110079809 | OPTICAL MODULE INSTALLING OPTICAL DEVICE WITH IDENTIFYING MARK VISUALLY INSPECTED AFTER ASSEMBLY THEREOF - An optical module is described, where the optical module installs an optical device whose identification mark is able to be distinguished even after the optical device is installed in the optical module. The identifying mark of the optical device is formed in a position able to be inspected from the direction of the normal line of the light-emitting facet of the optical device. Accordingly, the identifying mark becomes able to be identified through the lens after the optical device is installed in the package of the optical module. | 04-07-2011 |