A method for measuring a proportion of sA1c (%), which includes, when a peak derived from abnormal hemoglobin D, abnormal hemoglobin S or abnormal hemoglobin C is identified, calculation of the peak area, and measurement of the proportion of sA1c (%) corrected by using the calculation results. Results of measurement are obtained, by cation exchange chromatography, of sA1c (%) with a subject who provided a blood sample containing abnormal hemoglobin D, abnormal hemoglobin S or abnormal hemoglobin C by eliminating influences by such abnormal hemoglobin.

Provided is a composition by which glycated hemoglobin can be measured even in the presence of a stronger surfactant than a conventional case. Also provided is a buffer and/or stabilizer which maintains the residual activity of an amadoriase or lowers a reduction of residual activity. The present invention provides a composition for use in measuring glycated hemoglobin containing an amadoriase having substitution of one or more amino acid residues at a position(s) corresponding to an amino acid(s) selected from the group consisting of position 262, position 257, position 249, position 253, position 337, position 340, position 232, position 129, position 132, position 133, position 44, position 256, position 231 and position 81 of an amadoriase derived from the genus Coniochaeta and represented by SEQ ID No: 1 or 3, and having residual activity even in the presence of a surfactant. The present invention also provides a composition and kit for use in measuring glycated hemoglobin, comprising a specific stabilizer and/or a buffer. The present invention can provide an enzyme and a composition for use in measuring glycated hemoglobin, excellent in storage stability even if they are exposed to a surfactant.

Analytical assay reaction cartridges are disclosed that include a reagent tray containing a liquid reagent disposed therein and a flexible cover removably attached thereto. The flexible cover has a portion that extends beyond the reagent tray and that forms a tab portion extends through an opening in a lid member of the cartridge in order to facilitate removal of at least a portion of the cover and release of the liquid reagent. Also disclosed are analytical assay reaction kits that include the cartridges and diagnostic instruments for use with the analytical assay reaction cartridges/kits, as well as methods of making and using the cartridges/kits.

A method for determining analytes includes lysing the red blood cells of a whole blood sample, oxidizing the free hemoglobin in the lysed sample, and cleaving FVH from the hemoglobin A1C to form an electrochemical test solution. In one aspect, a first portion of the electrochemical test solution is reacted with fructosyl peptide oxidase and a reduced ruthenium mediator to form a first reaction product. A first electrical property of the first reaction product is measured, the measurement being indicative of hemoglobin A1C in the blood sample. In another aspect, a second portion of the electrochemical test solution is reacted with ferrocyanide to form a second reaction product. A second electrical property of the second reaction product is measured, the measurement being indicative of total hemoglobin in the blood sample. Hemoglobin A1C, total hemoglobin, and % HbA1C are determined based on the first and second electrical properties.

Provided are a measurement sample diluent that enables the measurement of the proportion of HbA1c in the total Hb molecules in a measurement sample (HbA1c (%)), with high sensitivity, high accuracy, and high correlation with HPLC without being affected by the length of time required to mix a measurement sample with the measurement sample diluent and to drop the mixture onto an immunochromatographic specimen for measuring HbA1c; and a kit containing the measurement sample diluent. The present invention relates to a measurement sample diluent for immunochromatography for quantifying the proportion of hemoglobin A1c in the total hemoglobin molecules in a measurement sample (hemoglobin A1c (%)); and the measurement sample diluent is an aqueous solution that contains a non-ionic surfactant, an anionic surfactant, and a buffer.

The present invention relates to a normalisation method for a dried blood matrix, said method comprising the steps: providing the dried blood matrix, extracting at least one analyte from a first portion of the dried blood matrix and haemoglobin from a second portion of the dried blood matrix, quantitatively analysing the at least one extracted analyte and the extracted haemoglobin, determining a concentration of the at least one analyte in the first portion of the dried blood matrix and a concentration of the haemoglobin in the second portion of the dried blood matrix, deriving the haematocrit of the second portion of the dried blood matrix on the basis of the concentration of the haemoglobin, and calculating a normalisation factor on the basis of the determined haematocrit in order to normalise the concentration of the at least one analyte in the first portion of the dried blood matrix. The invention also relates to a normalisation device (10) for performing a method according to the invention.

An example blood cell lysis composition includes a buffer and a secondary alcohol ethoxylate at a concentration in the range of about 2.5 percent (%) to about 20% weight per volume (w/v). The secondary alcohol ethoxylate may include Tergitol™ TMN-100X or Tergitol™ 15-S-9. The composition may be configured to lyse at least 90% of blood cells in a blood sample.

A method for detecting an analyte reactive towards luminol, comprising the steps of: feeding into a reaction chamber an alkaline solution of luminol, noble metal nanoparticles and at least one analyte reactive towards luminol, wherein the reaction chamber is in the form of a curved channel; detecting the light emitted due to a chemiluminescence reaction taking place in said channel; and discharging a reaction mass from said channel, characterized in that the average diameter of the metal nanoparticles is greater than 25 nm. Also provided is a microfluidic device for carrying out the method.

A component measurement apparatus includes: a chip insertion space for inserting a component measurement chip provided with a reagent that reacts with a component to be measured in a sample; a light emitting unit configured to emit radiation light to the component measurement chip in a state in which the component measurement chip is inserted into the chip insertion space; a light receiving unit configured to receive light transmitted through or reflected from the component measurement chip; and a control unit configured to determine whether there is a possibility that an incorrect processing mode has been selected for execution.

A method for calibrating sensitivity of a photometer includes measuring, by a double-beam spectrophotometer, an absorbance spectrum of a control solution, which has been diluted and includes a control substance. The method further includes linearly regressing the absorbance spectrum of the control solution over a predetermined range of wavelengths and determining whether a first slope of the linearly regressed absorbance spectrum of the control solution falls within a range of slopes of lines obtained from linearly regressing absorbance spectra of a plurality of reference solutions over the predetermined range of wavelengths. A concentration of chromophore in each reference solution is known and the absorbance spectra of the plurality of reference solutions have been obtained by the double-beam spectrophotometer.