The present disclosure relates to a kit for detecting a soluble growth stimulation expressed gene 2 protein. In particular, the present disclosure relates to a latex-enhanced turbidimetric immunoassay kit for detecting the concentration and/or content of the sST2 in human samples. The kit can be used in transmission immunoturbidimetry and scattering immunoturbidimetry. The kit comprises a buffer system, an anti-interference component, latex microspheres, an anti-sST2 antibody, etc. The latex-enhanced immunoturbidimetric agent of the present disclosure can detect sST2 proteins within a range of <400 ng/ml in a sample, with a sensitivity of up to 0.1 ng/ml and a high specificity, accuracy and precision. The kit is suitable for a fully automatic biochemical analyzer and a scattering analyzer, and has the advantages of convenient and fast use and low cost, and can be used clinically to detect the sST2 protein.

The present disclosure relates to methods of inhibiting vimentin activity, methods of screening for new vimentin inhibitors and uses of new vimentin inhibitors.

Provided herein are methods, systems, and compositions for Lp-PLA2 detection assays that employ amounts of detergent to liberate all or nearly all of the Lp-PLA2 molecules from associated lipoprotein particles. In this regard, the true Lp-PLA2 concentration can be detected in a sample, which correlates better with known Lp-PLA2 activity assays.

Lipase activity can be detected with a biosensor that includes a quantum dot adhered to a construct having a lipase-cleavable ester to attach a fluorophore acceptor configured as a Förster resonance energy transfer (FRET) acceptor to the QD when the construct is bound thereto. Cleavage of the ester by a lipase results in a measurable reduction in FRET. In further embodiments, the cleavable ester can be used to detect esterase activity, or the ester could be replaced with a glycosidic linkage to detect glycoside activity.

Provided is a method of avoiding the influence of a coexisting substance in the measurement of HbA1c % for a whole blood sample by an enzymatic method. Specifically, provided is a method of measuring a ratio of a hemoglobin A1c concentration to a hemoglobin concentration in a sample by an enzymatic method, the method including: a first step of optically measuring the hemoglobin concentration; and a second step of optically measuring the hemoglobin A1c concentration, wherein, when HbA1c % is calculated by dividing the hemoglobin A1c concentration measured in the second step by the hemoglobin concentration measured in the first step, the hemoglobin concentration serving as a denominator, which is measured at a first wavelength, is corrected using a result measured at a second wavelength.

Methods of mitigating lipoprotein interference in in vitro diagnostic assays for target hydrophobic analytes are disclosed, as well as compositions, kits, and devices useful in said methods. A pretreatment reagent is utilized that includes at least one enzyme that digests lipoprotein.

The invention provides fluorescent probes having the general formula (I)

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wherein X, Y, L and R.sup.1 to R.sup.4 are as described herein, compositions including the compounds, processes of manufacturing the compounds and methods of using the compounds.

Reagents, assays, methods, kits, devices, and systems for rapid measurement of cholesterol and cholesterol sub-fractions from a blood sample are provided. Total cholesterol, low density lipoprotein cholesterol, and high density lipoprotein cholesterol can be measured in a single assay using kinetic measurements, under conditions in which cholesterol sub-species are converted to a detectable product at distinct rates. The detectable product is measured at different times after assay initiation. A lipase, cholesterol esterase, cholesterol oxidase and a peroxidase may be used together to produce colored product in amounts directly proportional to the quantity of cholesterol converted. Methods for calculating very-low density lipoprotein cholesterol levels by further including triglyceride measurements are disclosed. Assays may be performed in a single reaction mixture, allowing more accurate and precise cholesterol determinations, including ratios of cholesterol sub-fractions to total cholesterol, at less expense, than would be expected by performing several different assays in different reaction mixtures.

A system for the electrochemical detection of triglyceride levels includes a test strip including an electrode and a counter electrode, the electrode and counter electrode located proximate to a sample reception area; and a coating on one of the electrode and counter electrode, the coating including a reagent coating for triglycerides.

Lipase activity can be detected with a biosensor that includes a quantum dot adhered to a construct having a lipase-cleavable ester to attach a fluorophore acceptor configured as a Förster resonance energy transfer (FRET) acceptor to the QD when the construct is bound thereto. Cleavage of the ester by a lipase results in a measurable reduction in FRET. In further embodiments, the cleavable ester can be used to detect esterase activity, or the ester could be replaced with a glycosidic linkage to detect glycoside activity.