A method includes estimating a value of a parameter indicative of an age or lifespan of a population of red blood cells of a subject, estimating a value of average glucose (AG) of the subject based on (i) the value of the parameter and (ii) a value indicative of an amount of glycated hemoglobin (HbA1c) of the subject, and providing information for treatment or diagnosis of a hyperglycemia condition of the subject based on the estimated value of AG.

Described herein are devices, systems, and methods used to measure glycated hemoglobin.

Silica nanoparticles for biomarker diagnosis and a method of manufacturing the same, and more particularly silica nanoparticles for biomarker diagnosis capable of measuring glycated proteins such as glycated hemoglobin, glycated albumin, etc. used as diabetes diagnosis markers, and a method of manufacturing the same are proposed. The silica nanoparticles for biomarker diagnosis, containing a reactive polymer and a nonreactive polymer immobilized on the surface and a dye immobilized inside, immobilize the dye therein through covalent bonding, whereby the dye is not affected by external environmental factors such as heat, pH, etc., and stability is enhanced even upon long-term storage.

A method of measuring stable A1c in a blood sample based on a time distribution of an optical measured value of hemoglobin at a flow path which separates hemoglobin in the blood sample on a basis of amounts of the charges of hemoglobin, the method comprising: a step of obtaining a correction factor, based on a peak area (A) of a fraction including HbA0 and either a peak area (G) of a first fraction including chemically-modified HbA0, or a peak area (D) of a second fraction including a component having a smaller amount of positive charge than HbA0 adjacent to a fraction identified as HbA0, in the time distribution; and a step of correcting, based on the correction factor a peak area of a fraction including stable A1c in the time distribution.

Disclosed is a platform detecting glycated hemoglobin as an indicator for diabetes in the blood based on upconverting nanoparticles excited by near-infrared light and luminescence resonance energy transfer.

The present invention relates to, in part, methods of improved healthcare in female subjects that, for example, rely on menstrual fluid sampling for applying selection biomarkers.

Methods, devices, and reagents are described for performing ratiometric assays for hemoglobin A1c. The methods involve a direct ratio determination between Hb A1c and normalized total hemoglobin utilizing a saturating amount of hemoglobin so that Hb A1c binds proportionately to a substrate. In some applications, the assay utilizes a proximity label system for signal generation and/or labeled magnetic beads. The methods can be configured as homogeneous or heterogeneous assays.

Provided is a glycated hemoglobin oxidase with small measurement error or without deviation of the measured value from the true value regarding a sample containing glycated abnormal hemoglobin. Provided are a glycated hemoglobin oxidase comprising an amino acid sequence in which the amino acid at the position corresponding to position 113, 109, 106, or 102 of the amino acid sequence of SEQ ID NO: 1 is substituted with an amino acid other than a positively-charged amino acid, such as glutamic acid, alanine, or aspartic acid as well as a method and a reagent kit for measurement of glycated hemoglobin using such glycated hemoglobin oxidase. The glycated hemoglobin is capable of reacting with various genotypes and enables highly accurate measurement of glycated hemoglobin in a sample containing glycated abnormal hemoglobin.

This invention provides an amadoriase having high reactivity with -fructosyl hexapeptide (F6P) derived from the -chain amino terminus of glycated hemoglobin (HbAlc), which enables satisfactory quantification of F6P cleaved from HbAlc. A novel amadoriase is derived from the amadoriase of the genus Coniochaeta by substitution of one or more amino acids at positions selected from the group consisting of positions 62, 63, 102, 106, 110, 113, 355, and 419. Such amadoriase enables rapid, simple, accurate, and satisfactory quantification of F6P cleaved from HbAlc. With the use of such amadoriase, a method for measurement of HbAlc by an enzymatic method and a kit for measurement of HbAlc that are based on the same principle as used in the conventional standard method and excellent in terms of the relevance with the standard method.

The present description relates to a method for identifying a patient who is eligible for an intensification of heart failure therapy. Furthermore, the description relates to a method for pikej3optimizing B-type natriuretic peptide (BNP) and/or N-terminal pro B-type natriuretic peptide (NT-proBNP)-type peptide guided heart failure therapy. The methods are based on the measurement of the level of at least one marker in a sample from a patient who has heart failure and who receives B-type natriuretic peptide (BNP) and/or N-terminal pro B-type natriuretic peptide (NT-proBNP)-type peptide guided heart failure therapy. Further described are kits and devices adapted to carry out the described method.