Patent application number | Description | Published |
20090092296 | FINGER VEIN IMAGE INPUTTING DEVICE AND APPARATUS USING THE SAME - There is a need for providing a finger vein image inputting device that can miniaturize and thin a finger vein authentication apparatus and provide high authentication accuracy. The finger vein image inputting device according to the present invention includes a body, a band pass filter for transmitting only light of a specific wavelength, a light source for applying light to a finger placed over the band pass filter, and an imaging means for imaging transmitted light from the finger. A gradient index lens is provided between the band pass filter and the imaging means and causes refractive-index distribution around an optical axis. A polarizing filter is provided at least one of between the light source and the finger and between the finger and an imaging device. | 04-09-2009 |
20100008544 | BIOMETRIC AUTHENTICATION DEVICE AND BIOMETRIC AUTHENTICATION METHOD - A biometric authentication device includes an accommodation unit and a detection unit in which the accommodation unit accommodates a card-type recording medium providing alternative information alternative to feature information such that the card-type recording medium is faced to the detection unit, with a biologic object absent, and the detection unit detects the alternative information from the card-type recording medium, thereby collating the feature information extracted from an image of the biologic object with the feature information recorded in a memory in the case of placing the finger into the accommodation unit, and collating the alternative information from the card-type recording medium with the alternative information recorded in the memory in the case of placing the card-type recording medium into the accommodation unit. | 01-14-2010 |
20110021891 | NON-INVASIVE GLUCOSE MONITOR - In a non-invasive glucose monitor is configured to, by using a heat conductive member having a body surface contacting part for contacting a surface of a human body at its one end, measures a first temperature adjacent to the body surface contacting part and a second temperature adjacent to the other end apart from the body surface. The computing device takes in data of the first and second temperature, environmental temperature, radiation heat from the body surface, reflection light caused by reflecting the light of the two different wavelength at the body surface contacting part. The computing device stores a relationship between parameters and blood glucose levels in advance, thereby converts the above-mentioned data to parameters, and calculates a blood glucose level by applying the parameters to the relationship. | 01-27-2011 |
20110150304 | PERSONAL AUTHENTICATION APPARATUS AND MOBILE COMMUNICATION TERMINAL - A personal authentication apparatus, being small/thin and also enabling to position a vital body with high accuracy, comprises: a first light source and a second light source, each of which is configured to irradiate infrared rays; and detector portion, which is configured to detect the infrared rays irradiated from the first and second light sources upon a vital body, whereby detecting a picture having characteristic information of the vital body from the infrared rays detected by the detector portion and executing a personal authentication, wherein irradiation is made from the first and second light sources upon the vital body, and position information of the vital body is detected from the infrared rays detected by the detector portion, thereby executing non-contacting positioning of the vital body. | 06-23-2011 |
Patent application number | Description | Published |
20080267979 | Anti-Glypican-3 Antibody - An anti-glypican-3 antibody comprising one or more amino acid substitutions introduced in the Fc region is disclosed. Preferably, in the anti-glypican-3 antibody, one or more of the amino acid residues at the positions 239, 298, 326, 330 and 332 in the Fc region are substituted with other amino acid residues. Since the Fc-modified anti-glypican-3 antibody of the invention exhibit enhanced ADCC activity, it is useful in treating cancers, such as hepatic cancer. Also disclosed are an anticancer agent comprising the anti-glypican-3 antibody of the invention and a pharmaceutically acceptable carrier, as well as a method of treating a patient with cancer comprising administering to the patient the anticancer agent of the invention. | 10-30-2008 |
20090061485 | Method of Producing an Antibody Using a Cell in Which the Function of Fucose Transporter Is Inhibited - The present invention relates to a method of producing a recombinant protein, particularly an antibody, using a cell in which the function of a fucose transporter is inhibited, and it also provides a cell in which the expression of fucose transporter genes on both homologous chromosomes is artificially suppressed. | 03-05-2009 |
20100248359 | Anti-Glypican 3 Antibody - An antibody capable of binding to a specific region of glypican 3, as well as a humanized antibody created based on that antibody are disclosed. The anti-GPC3 antibody of the invention has a higher ADCC activity and CDC activity compared with those of a conventional antibody. The antibody of the present invention is useful as a cell growth inhibitor, an anticancer agent and an agent for diagnosis of cancers. | 09-30-2010 |
20110033452 | Anti-Glypican 3 Antibody Having Modified Sugar Chain - An anti-glypican 3 antibody with modified sugar chains, more specifically, an anti-glypican 3 antibody lacking fucose is provided. The anti-glypican 3 antibody with modified sugar chains of the present invention may be produced by a process comprising introducing a nucleic acid encoding an anti-glypican 3 antibody into host cells with reduced fucose addition capability, such as YB2/0 cells and cells lacking a fucose transporter. The anti-glypican 3 antibody with modified sugar chains of the present invention has a high level of cytotoxic activity and therefore is useful as a cell growth inhibitor such as an anticancer agent. | 02-10-2011 |
20110070614 | FUCOSE TRANSPORTER - The present invention provides a gene encoding a fucose transporter, a fucose transporter polypeptide, a method for screening for a compound that binds to a fucose transporter or a compound that inhibits fucose transport activity, a cell having inhibited fucose transporter functions, and a cell wherein the expression of the fucose transporter is inhibited. The present invention further relates to a method for producing recombinant protein, and specifically, to a method for producing protein by which fucose existing within the Golgi apparatus of a host cell is decreased, a method for inhibiting the addition of fucose to protein by which fucose existing within the Golgi apparatus of a host cell is decreased upon production of recombinant protein using the host cell, a method for increasing the cytotoxic activity of an antibody by which an antibody is produced using a cell wherein fucose existing within the Golgi apparatus is decreased, and a cell having a Golgi apparatus wherein fucose existing within the Golgi apparatus is decreased. | 03-24-2011 |
Patent application number | Description | Published |
20090221733 | AQUEOUS PIGMENT DISPERSION LIQUID AND INK-JET RECORDING INK - A production method of an aqueous pigment dispersion liquid of the present invention includes: a kneading step of kneading a mixture including (a) C. I. pigment violet 23, (b) a styrene-acrylic acid-based copolymer with an acid value of 50 to 300 mgKOH/g, (c) an alkali metal hydroxide, (d) water, and (e) a wetting agent, thereby producing a colored, kneaded material; and a dispersion step of dispersing the pigmented, kneaded material in an aqueous medium by using a dispersing machine with media, wherein the mass ratio of (b)/(a) in the kneading step is within a range of 0.15 to 0.45, the mass ratio of (d)/(a) in the first half of the kneading step is within a range of 0.04 to 0.42, and the change in viscosity of materials to be dispersed in the dispersion step is 10% or lower. | 09-03-2009 |
20090326127 | Aqueous Pigment Liquid Dispersion And Ink-Jet Recording Ink, and Production Method of Aqueous Pigment Liquid Dispersion - The present invention relates to an ink-jet recording ink which can simultaneously achieve long-term preservation stability, high luster, and light fastness of a printed image, and an aqueous pigment liquid dispersion to produce the ink. Moreover, the present invention relates to a production method of the aqueous pigment liquid dispersion. For the aforementioned objects, the applicant provides an aqueous pigment liquid dispersion, including: C. I. pigment green 36 (a); a styrene-acrylic acid type copolymer (b); a basic compound (c); and a wetting agent (d), wherein the styrene-acrylic acid type copolymer (b) has styrene-based monomer units of 60 mass % or more in the total of all the monomer units, an acid value of 120 to 240, and a weight average molecular weight of 6,000 to 40,000, and the mass ratio (b)/(a) is within a range from 0.15 to 0.25. | 12-31-2009 |
Patent application number | Description | Published |
20120108762 | ADHESIVE COMPOSITION, ADHESIVE SHEET, SEMICONDUCTOR APPARATUS PROTECTION MATERIAL, AND SEMICONDUCTOR APPARATUS - A semiconductor apparatus adhesive composition having excellent adhesion properties when pressure-bonded and has excellent connection reliability and insulation reliability when hardened and an adhesive sheet using this adhesive composition. An adhesive composition including: (A) a silicone resin constituted of a repeating unit represented by the following general formula (1); (B) a thermosetting resin; and (C) a compound having a flux activity, | 05-03-2012 |
20120139131 | WAFER MOLD MATERIAL AND METHOD FOR MANUFACTURING SEMICONDUCTOR APPARATUS - The invention provides a wafer mold material for collectively subjecting a wafer having semiconductor devices on a surface thereof to resin molding, wherein the wafer mold material has a resin layer containing a filler and at least any one of an acrylic resin, a silicone resin having an epoxy group, an urethane resin, and a polyimide silicone resin, and the wafer mold material is formed into a film-like shape. There can be a wafer mold material that enables collective molding (wafer molding) with respect to a wafer having semiconductor devices formed thereon, has excellent transference performance with respect to a large-diameter thin-film wafer, can provide a flexible hardened material with low-stress properties, and can be preferably used as a mold material in a wafer level package with less warp of a formed (molded) wafer. | 06-07-2012 |
20120235284 | FILM-LIKE WAFER MOLD MATERIAL, MOLDED WAFER, AND SEMICONDUCTOR DEVICE - A film-like wafer mold material for molding a wafer in a lump, the material including a multilayer structure constituted of at least a first film layer and a second film layer provided on the first film layer, wherein the first film layer contains a silicone-backbone-containing polymer, a cross-linking agent, and a filler, and the second film layer, contains a silicone-backbone-containing polymer and a cross-linking agent, and further contains a filler in such a manner that a content rate of the filler becomes 0 or above and less than 100 when a content rate of the filler contained in the first film layer is assumed to be 100. The film-like wafer mold material has excellent transference performance with respect to a thin-film wafer with a large diameter, also has low-warp properties and excellent wafer protection performance after form shaping (after molding), and is preferably used for a wafer level package. | 09-20-2012 |
20120276717 | ORGANOPOLYSILOXANE, TEMPORARY ADHESIVE COMPOSITION CONTAINING ORGANOPOLYSILOXANE, AND METHOD OF PRODUCING THINNED WAFER USING THE SAME - The present invention provides a non-aromatic saturated hydrocarbon group-containing organopolysiloxane containing the following units (I) to (III):
| 11-01-2012 |
20120299203 | POLYMER HAVING SILPHENYLENE AND SILOXANE STRUCTURES, A METHOD OF PREPARING THE SAME, AN ADHESIVE COMPOSITION, AN ADHESIVE SHEET, A PROTECTIVE MATERIAL FOR A SEMICONDUCTOR DEVICE, AND A SEMICONDUCTOR DEVICE - One aspect of the present invention provides a polymer having repeating units represented by the formulas (1-1), (1-2) and (1-3) and weight-average molecular weight of from 3,000 to 500,000, as determined by GPC using tetrahydrofuran as a solvent, reduced to polystyrene. Another aspect of the present invention provides an adhesive composition comprising (A) the polymer, (B) a thermosetting resin, and (C) a compound having flux activity. Further, the present invention provides an adhesive sheet having an adhesive layer made of the adhesive composition, a protective material for a semiconductor device, which has the adhesive layer, and a semiconductor device having a cured product obtained from the adhesive composition. | 11-29-2012 |
20130089967 | TEMPORARY ADHESIVE COMPOSITION AND METHOD FOR MANUFACTURING THIN WAFER USING THE SAME - The present invention is a temporary adhesive composition comprising: (A) non-aromatic saturated hydrocarbon group-containing organopolysiloxane; (B) an antioxidant; and (C) an organic solvent, wherein the component (A) corresponds to 100 parts by mass, the component (B) corresponds to 0.5 to 5 parts by mass, and the component (C) corresponds to 10 to 1000 parts by mass. There can be provided a temporary adhesive composition that has excellent thermal stability while maintaining solvent resistance and a method for manufacturing a thin wafer using this. | 04-11-2013 |
Patent application number | Description | Published |
20130220687 | WAFER PROCESS BODY, WAFER PROCESSING MEMBER, WAFER PROCESSING TEMPORARY ADHESIVE MATERIAL, AND METHOD FOR MANUFACTURING THIN WAFER - Disclosed is a wafer process body, a temporary adhesive layer is formed on a supporting body, and a wafer having a circuit-formed front surface and a to-be-processed back surface is stacked on the temporary adhesive layer, wherein the temporary adhesive layer is provided with a first temporary adhesive layer including a non-aromatic saturated hydrocarbon group-containing organopolysiloxane layer (A) which is adhered to the front surface of the wafer so as to be detachable and a second temporary adhesive layer comprised of a thermosetting-modified siloxane polymer layer (B) which is stacked on the first temporary adhesive layer and adhered to the supporting body so as to be detachable. Thus, temporary adhesion of a wafer with a supporting body may become easy, process conformity with the TSV formation process and with the wafer-back surface-wiring process may become high, and removal may be done easily, with high productivity. | 08-29-2013 |
20130302983 | TEMPORARY ADHESIVE FOR WAFER PROCESSING, MEMBER FOR WAFER PROCESSING USING THE SAME, WAFER PROCESSED BODY, AND METHOD FOR PRODUCING THIN WAFER - The present invention provided is the temporary adhesive for wafer processing which temporarily bonds a wafer having a circuit face on the front surface and a processing face on the back surface to a support, and includes a first temporary adhesive layer which is a layer (A) of a thermoplastic resin modified organopolysiloxane obtained by partial dehydration condensation of an organopolysiloxane resin containing a R | 11-14-2013 |
20140106137 | WAFER PROCESSING LAMINATE, WAFER PROCESSING MEMBER, TEMPORARY ADHERING MATERIAL FOR PROCESSING WAFER, AND MANUFACTURING METHOD OF THIN WAFER - A wafer processing laminate, a wafer processing member, a temporary adhering material for processing wafer, and a method for manufacturing a thin wafer using the same. The wafer processing laminate includes a support, a temporary adhesive material layer formed thereon and a wafer laminated on the temporary adhesive material layer, where the wafer has a circuit-forming front surface and a back surface to be processed. The temporary adhesive material layer includes a first temporary adhesive layer of a thermoplastic organopolysiloxane polymer layer (A) releasably adhered on a surface of the wafer, a second temporary adhesive layer of a radiation curable polymer layer (B) laminated on the first temporary adhesive layer, and a third temporary adhesive layer of a thermoplastic organopolysiloxane polymer layer (A′) laminated on the second temporary adhesive layer and releasably adhered to the support. | 04-17-2014 |
20140154868 | WAFER PROCESSING LAMINATE, WAFER PROCESSING MEMBER, TEMPORARY ADHERING MATERIAL FOR PROCESSING WAFER, AND MANUFACTURING METHOD OF THIN WAFER - A wafer processing laminate, a wafer processing member, a temporary adhering material for processing a wafer, and a method for manufacturing a thin wafer, which facilitates to establish a temporary adhering the wafer and the support, enables to form a layer of uniform thickness on a heavily stepped substrate, and is compatible with the TSV formation and wafer back surface interconnect forming steps, and the wafer processing laminate includes a support, a temporary adhesive material layer formed thereon and a wafer laminated on the temporary adhesive material layer, where the wafer has a circuit-forming front surface and a back surface to be processed, wherein the temporary adhesive material layer includes a three-layered structure composite temporary adhesive material layer. | 06-05-2014 |
20140342530 | TEMPORARY ADHESIVE MATERIAL FOR WAFER, FILM FOR TEMPORARY ADHESION USING SAME, WAFER PROCESSING LAMINATE, AND METHOD FOR PRODUCING THIN WAFER USING SAME - A temporary adhesive material for a wafer includes a first temporary adhesive layer of a silicone-containing polymer layer containing a photo base generator and a second temporary adhesive layer of a silicone-containing polymer layer which is laminated on the first temporary adhesive layer, does not contain the photo base generator, and is different from the polymer layer. Thereby, there can be formed a temporary adhesive layer having high thickness uniformity, even on a wafer having a step. Because of the thickness uniformity, a thin wafer having a uniform thickness of 50 μm or less can be easily obtained. When a thin wafer is produced and then delaminated from a support, the wafer can be delaminated from the support by exposure at a low exposure dose without stress. Therefore, a brittle thin wafer can be easily handled without causing damage, and a thin wafer can be easily produced. | 11-20-2014 |
Patent application number | Description | Published |
20080305998 | Ligand to GPR8 and DNA thereof - The present invention aims at providing a ligand to GPR8, its DNA, etc., and more particularly, a polypeptide capable of binding to GPR8 or its amides or esters, or salts thereof, as well as its DNA, etc. | 12-11-2008 |
20090170116 | IL-13 Production Inhibitor - The present invention provides a screening method/screening kit for an IL-13 production inhibitor, which comprises using (a) a protein comprising the same or substantially the same amino acid sequence as the amino acid sequence represented by SEQ ID NO: 1, or its partial peptide, or a salt thereof; and (b) a ligand capable of specifically binding to the protein; an IL-13 production inhibitor which is obtainable by said screening, and the like. The IL-13 production inhibitor which can be obtained by the screening of the present invention is useful as a prophylactic/therapeutic agent for, e.g., respiratory disease, etc. | 07-02-2009 |
20100130737 | Regulating Agent of GPR34 Receptor Function - The present invention provides a GPR receptor function regulator comprising the compound represented by the formula: | 05-27-2010 |
Patent application number | Description | Published |
20090024014 | Method and Apparatus for Measuring Pulse Rate and Oxygen Saturation Achieved During Exercise - In order to measure a pulse rate and an oxygen saturation of a subject who is in an exercised state, each of two pulse wave signals obtained from the subject is separated into a signal component and a noise component. A frequency spectrum of the signal component and a frequency spectrum of the noise component are obtained. It is judged whether a body motion of the subject is occurred based on the frequency spectrum of the signal component and the frequency spectrum of the noise component. A pulsation frequency is determined based on the judgment as to the body motion. The pulse rate is calculated based on the pulsation frequency. The oxygen saturation is calculated based on a ratio of spectra of the two pulse wave signals corresponding to the pulsation frequency. | 01-22-2009 |
20100268101 | METHOD AND APPARATUS FOR MEASURING BLOOD VOLUME - A method of measuring a blood volume, includes: reading individual specific information of a patient; estimating oxygen metabolism relating to a cardiac output of the patient; and acquiring the cardiac output based on the estimated oxygen metabolism. | 10-21-2010 |
20100268518 | APPARATUS FOR MEASURING BLOOD VOLUME AND METHOD OF EVALUATING RESULT OF MEASUREMENT BY APPARATUS FOR MEASURING BLOOD VOLUME - An apparatus for measuring a blood volume, includes: a first calculator which calculates a first blood volume by using information on a cardiac output of a subject; and a second calculator which calculates a second blood volume by using information on oxygen metabolism of the subject. | 10-21-2010 |
20110054328 | BIOLOGICAL INFORMATION MONITOR - A biological information monitor includes: a first measuring unit which measures a pulse wave propagation time of a patient; a second measuring unit which measures a blood pressure of the patient; a calculating unit which calculates an estimated blood pressure value of the patient based on the pulse wave propagation time of the patient; a setting unit which sets a threshold; and a determining unit which compares the estimated blood pressure value with the threshold. The second measuring unit is activated to measure the blood pressure of the patient at least one of at time intervals and at a time when an operator operates the second measuring unit, and the second measuring unit is activated to measure the blood pressure of the patient by the determining unit based on the comparison result. | 03-03-2011 |
20110060531 | BLOOD VOLUME MEASURING METHOD AND BLOOD VOLUME MEASURING APPARATUS - A blood volume measuring method includes: acquiring data of stroke volume variation at each respiratory rate, and storing the acquired data in a first buffer; reading an N1 number of the data stored in the first buffer, from the first buffer, and storing the N1 number of the data in a second buffer; excluding a part of the data stored in the second buffer, a value of each of which exceeds a first upper limit or falls below a first lower limit, from the data stored in the second buffer, and storing the other of the data stored in the second buffer, in a third buffer; acquiring a deviation of each of the data stored in the third buffer, from a median value of the data stored in the third buffer, excluding a part of the data stored in the third buffer, the deviation of each of which exceeds a second upper limit or falls below a second lower limit, from the data stored in the third buffer, and storing the other of the data stored in the third buffer, in a fourth buffer; determining whether N2/N1 is within an allowable value or not, wherein the N2 is a number of the data stored in the fourth buffer; and when it is determined that the N2/N1 is within the allowable value, calculating data of average stroke volume variation based on the data stored in the fourth buffer. | 03-10-2011 |
20140121544 | METHOD AND APPARATUS FOR MEASURING BLOOD VOLUME - Method for measuring a blood volume is provided. At least two types of respiratory variation data; for instance, data pertinent to respiratory variations in stroke volume (SVV) data, data pertinent to respiratory variations in an amplitude of a pulse wave (PAV), a pulse wave transit time (PWTT) in a respiratory cycle, and a heart rate (HR) in a predetermined time, are measured, and patient's inherent coefficients α, β, and K are calculated, whereby a cardiac output can be determined by an equation CO=K(α*PWTT+β)*HR. | 05-01-2014 |