Patent application number | Description | Published |
20090053823 | Liquid Reagent of Color Former and Method of Stabilizing The Same - A liquid reagent in which a methylene blue compound color former is stably stored in a liquid state; and a method of stabilizing a methylene blue compound color former in a liquid state. A methylene blue compound color former is stabilized by causing it to coexist with either a quaternary ammonium compound having a C | 02-26-2009 |
20090081718 | Protein cleavage method and thereof - The present invention provides a method for cleaving a glycated protein to obtain an amino acid or a peptide efficiently with a protease. By treating the glycated protein with the protease in the presence of a compound represented by R—X, the amino acid or the peptide is obtained by the cleavage. The R represents an alkyl compound with a carbon number of 9 or more, and preferably is straight-chain alkyl or straight-chain acyl with a carbon number of 9 to 16, branched-chain alkyl or branched-chain acyl with a carbon number of 10 to 40 and a main-chain carbon number of 9 to 16, or straight-chain alkyl that is substituted by cycloalkyl (a carbon number of the cycloalkyl ranges from 3 to 8, and a carbon number of the straight chain ranges from 4 to 13), where X is a sugar residue. Moreover, the glycated protein is, for example, glycated hemoglobin, and preferably β-chain N-terminal amino acid or a β-chain N-terminal peptide is cleaved by the protease treatment. | 03-26-2009 |
20090142787 | Albumin Denaturing Agent - An albumin denaturing agent for digesting an albumin by a protease efficiently is provided. The albumin denaturing agent contains quaternary ammonium having a hydrocarbon group with a carbon number of 12 or more, or a salt of the quaternary ammonium. The albumin in a sample is digested by the protease in the presence of the albumin denaturing agent, a glycated part of the thus obtained albumin digestion product and a FAOD effect a reaction, and a redox reaction between the glycated part and the FAOD is measured, thereby determining a ratio (GA (%)) of the glycated albumin of the glycated albumin with respect to the albumin. | 06-04-2009 |
20090215026 | METHOD FOR STORING TETRAZOLIUM COMPOUND, STABILIZER USED IN THE SAME, AND TETRAZOLIUM COMPOUND REAGENT SOLUTION USING THE METHOD - A method for storing a tetrazolium compound stably is provided. The tetrazolium compound is stored in the presence of sodium azide. The tetrazolium compound (A) and the sodium azide (B) are present at a ratio (A:B) in the range from 1:0.02 to 1:6.2. Furthermore, when the tetrazolium compound is stored as a solution, the concentration of the sodium azide is in the range from 0.08 to 3.2 mmol/L and the concentration of the tetrazolium compound is in the range from 0.5 to 8 mmol/L. As the tetrazolium compound, it is preferable to use 2-(4-iodophenyl)-3-(2,4-dinitrophenyl)-5-(2,4-disulfophenyl)-2H-tetrazolium salt. | 08-27-2009 |
20100032294 | METHOD FOR ANALYZING HEMOGLOBIN BY CAPILLARY ELECTROPHORESIS AND ADDITIVE USED THEREIN - The present invention provides a method for analyzing hemoglobin by capillary electrophoresis, that allows the apparatus to be smaller in size, allows a highly precise analysis to be obtained, and allows the analysis to be performed in a short period of time. The analytical method of the present invention are methods for analyzing hemoglobin by capillary electrophoresis, comprising: a sample-providing step of providing a sample containing hemoglobin; a capillary tube-providing step of providing a capillary tube containing a buffer solution; and an electrophoresis step of carrying out electrophoresis of the sample, by introducing the sample into the buffer solution in the capillary tube, and applying a voltage across both ends of the capillary tube; wherein the electrophoresis is carried out following at least one of modes (A) and (B) below: (A) the electrophoresis is carried out with a surfactant (a) added to the buffer solution, the surfactant (a) being a non-ionic surfactant having an alkyl group as a hydrophobic portion and a sugar as a hydrophilic portion; and (B) the electrophoresis is carried out with a surfactant (b) added to the sample, the surfactant (b) being a betaine-type amphoteric surfactant. | 02-11-2010 |
20100032297 | Electrophoresis Chip and Electrophoresis Apparatus - An electrophoresis chip that enables an apparatus to be small, analysis time to be short and glycosylated hemoglobin to be analyzed highly accurately is provided. The electrophoresis chip includes an upper substrate | 02-11-2010 |
20100116660 | Electrophoresis Chip, Electrophoresis Apparatus, and Method for Analyzing Sample by Capillary Electrophoresis - An electrophoresis chip that can be small and simple and that can analyze a sample with high accuracy is provided. The electrophoresis chip includes an upper substrate | 05-13-2010 |
20100155242 | Method of Analyzing a Sample by Capillary Electrophoresis - The present invention is directed to the described capillary electrophoresis apparatus and methods of using such apparatus for separating and analyzing components of a sample. | 06-24-2010 |
20100175996 | PROCESS FOR ANALYZING SAMPLE BY CAPILLARY ELECTROPHORESIS METHOD - A process for analyzing a sample by a capillary electrophoresis method is provided that allows the apparatus to be reduced in size, allows a high analytical precision to be obtained, and can be carried out easily. The analytical process of the present invention is a process for analyzing a sample by a capillary electrophoresis method. The process includes a step of preparing a capillary channel to be used for the capillary electrophoresis method and a step of electrophoresing a complex of a sample and an anionic group-containing compound that are bonded together, in the capillary channel, wherein the capillary channel includes an A layer that is coated on an inner wall thereof and a B layer that is coated on the A layer. | 07-15-2010 |
20100178659 | METHOD OF MEASURING HbA1c - A method of measuring HbA1c is provided that, even with a whole blood sample after storage, measurement accuracy substantially equal to a whole blood sample right after collection can be maintained. Whole blood is stored in a presence of a glycolytic inhibitor and protease is added to the stored whole blood sample to cleave hemoglobin in the whole blood sample. Then a glycated part of a hemoglobin fragment thereby obtained is treated with fructosyl amine oxidase. Thereafter, a glycation degree of HbA1c is determined by measuring a redox reaction between the glycated part and the fructosyl amine oxidase. Further, instead of storage of the whole blood in a presence of the glycolytic inhibitor, a strong electrolyte substance such as KCl, K | 07-15-2010 |
20100187110 | PROCESS FOR ANALYZING SAMPLE BY CAPILLARY ELECTROPHORESIS METHOD - A process for analyzing a sample by a capillary electrophoresis method is provided that allows the apparatus to be reduced in size, allows a high analytical precision to be obtained, and can be carried out easily. The analytical process of the present invention is a process for analyzing a sample by a capillary electrophoresis method. The analytical process includes preparing a capillary tube to be used for the capillary electrophoresis method, and performing electrophoretic separation of a complex of a sample and an anionic group-containing compound that are bonded together, in the capillary tube, wherein the capillary tube includes an anionic layer that is formed of the anionic group-containing compound and that is coated on the inner wall of the capillary tube, and the anionic layer is fixed to the inner wall of the capillary tube by a covalent bond. | 07-29-2010 |
20100190194 | POSTPRANDIAL HYPERGLYCEMIA MARKER, METHOD OF MEASURING THE SAME, AND USAGE THEREOF - A new method of diagnosing postprandial hyperglycemia by indirectly measuring a blood glucose level is provided. Postprandial hyperglycemia is detected by measuring a glycation degree of lysine in hemoglobin, in which a side chain amino group of lysine is glycated (GHbLys %). Measurement of GHbLys % can be performed by cleaving hemoglobin by protease, treating a glycated part of a lysine residue in the obtained cleavage product of hemoglobin with fructosyl amino acid oxidase, and measuring a redox reaction between the glycated part and fructosyl amino acid oxidase. | 07-29-2010 |
20110015391 | STABILIZER OF COLOR FORMER AND USE THEREOF - The present invention provides a stabilizer that can stabilize a salt of 10-(carboxymethylaminocarbonyn-3,7-bis(dimethylamino)phenothiazine or a derivative thereof even under the existence of moisture or under light irradiation. A compound described in at least one of (1) and (2) below is used as the stabilizer of the salt of 10-(carboxymethylaminocarbonyl)-3,7-bis(dimethylamino)phenothiazine or the derivative thereof.
| 01-20-2011 |
20110155573 | METHOD OF ANALYZING HEMOGLOBIN BY ELECTROPHORESIS - A method for analyzing hemoglobin by electrophoresis, capable of analyzing hemoglobin A1c (HbA1c) and modified hemoglobin with improved accuracy in a shortened analysis time is provided. The method for analyzing hemoglobin by electrophoresis includes performing electrophoresis under conditions in which an acidic substance having two or more carboxyl groups is present in an electrophoresis solution. At least two of the carboxyl groups of the acidic substance each have an acid dissociation constant (pK | 06-30-2011 |
20110174621 | Method for Analyzing Sample by Electrophoresis and Use of the Same - A sample analysis method with improved separation accuracy is provided. The method relates to a method for analyzing a sample by electrophoresis using an electrophoresis apparatus provided with a channel and a sample reservoir formed in the channel. The method includes: placing the sample in the sample reservoir of the electrophoresis apparatus with the channel being filled with an electrophoresis running buffer; and performing electrophoresis by applying a voltage to both ends of the channel. The concentration of at least one of a) and b) is set to be approximately the same between the sample and the electrophoresis running buffer; wherein a) and b) are defined as follows:
| 07-21-2011 |
20120012462 | Electrophoresis Chip and Electrophoresis Apparatus - An electrophoresis chip that enables an apparatus to be small, analysis time to be short and glycosylated hemoglobin to be analyzed highly accurately is provided. The electrophoresis chip includes an upper substrate | 01-19-2012 |
20120138461 | Device and Method for Manufacturing the Same - The present invention provides a device that decreases deformation during manufacturing of the device, provides a firm joint without use of an adhesive, and allows chemical modification of a channel during manufacturing of the device. The device includes two joined substrates, and a concavity is formed on at least one of the opposing surfaces of the two substrates so as to make a channel, where the two substrates are joined together by a covalent bond via a crosslinking agent (A), and the crosslinking agent (A) is exposed on an inner wall surface of the channel. | 06-07-2012 |
20130244264 | Measurement Method Using Enzyme - A method for measuring an analyte is described that includes the steps of: i) preparing a reagent (D) in which an enzyme (A) and an enzyme (B) coexist in the absence of the analyte; ii) bringing the analyte into contact with the enzyme (A) and the enzyme (B) so that the enzyme (A) acts on the analyte to produce a product (E), on which the enzyme (B) does not substantially act, from the analyte; iii) producing a product (C) by allowing the enzyme (A) or an enzyme (F) that is different from the enzyme (A) that acts on the analyte to produce a product (C) to act on the analyte and/or the product (E); and iv) detecting the product (C) by the enzyme (B). | 09-19-2013 |