The present invention provides the use of one or more active ingredients that can reduce the adverse effects of particulate matter (PM) on the skin, the active ingredients include polyphenolic substances. The active ingredient disclosed herein can significantly reduce the adverse effects of skin caused by PMs, and can be applied in many different aspects, such as skin care products with anti-pollution and anti-haze effect.

Advantage is taken of macrolide antibiotics' complexation with free cholesterol to yield fluorescent complexes to determine the levels of free cholesterol, total cholesterol, or lecithin: cholesterol acyl transferase (LCAT) in serum or plasma or fractions thereof or to determine the level of cholesterol esterase in a sample.

Advantage is taken of macrolide antibiotics' complexation with free cholesterol to yield fluorescent complexes to determine the levels of free cholesterol, total cholesterol, or lecithin: cholesterol acyl transferase (LCAT) in serum or plasma or fractions thereof or to determine the level of cholesterol esterase in a sample.

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.

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.

The present disclosure relates to a method for measuring aggregation of low-density lipoprotein (LDL). The susceptibility of LDL to aggregate is an important factor regarding prognosis, diagnosis and surveillance of atherosclerotic cardiovascular diseases and cardiometabolic diseases, such as type 2 diabetes and related conditions, at various stages of their development. Also provided are methods of treatment of such diseases in subjects in need thereof.

The present disclosure relates to a method for measuring aggregation of low-density lipoprotein (LDL). The susceptibility of LDL to aggregate is an important factor regarding prognosis, diagnosis and surveillance of atherosclerotic cardiovascular diseases and cardiometabolic diseases, such as type 2 diabetes and related conditions, at various stages of their development. Also provided are methods of treatment of such diseases in subjects in need thereof.

This present disclosure provides devices for analyzing a blood fluid sample. The present disclosure contemplates an assay device that includes a separation membrane and a detection membrane. The separation membrane contains a first reagent for precipitating a first protein contained in the blood fluid sample, where the separation membrane also separates red blood cells from the blood fluid sample. Further, the detection membrane is configured to elicit a quantifiable response in the presence of a second protein present in the blood fluid sample. The quantifiable response corresponds to an amount of the second protein present in the detection membrane. In addition, it is to be understood that the separation membrane concurrently precipitates the first protein and separates the red blood cells from the blood fluid sample that reaches the detection membrane. Methods for manufacturing the assay device and performing an assay using the assay device are also provided.

The invention provides an enzymatic method for measuring the concentration of one or more analytes in the plasma portion of a blood derived sample, containing a first and a second component, where said second component interferes with the measurement of said first component. The method includes: i) diluting the sample with a reagent mixture; ii) substantially removing blood cells; iii) using a reagent which serves to temporarily prevent reaction of the second component, to generate a blocked second component; iv) causing the selective reaction of a constituent of each analyte to directly or indirectly generate detectable reaction products, where one of the analytes is the first component; v) monitoring the detectable reaction product or products; vi) relating an amount of the detectable product or products and/or a rate of formation of the detectable product or products to the concentration of each analyte, where the concentration of at least the first component is related to a corresponding detectable reaction product by means of estimating an un-measurable (fictive) endpoint. Step iii) may be carried out at any stage up to and including step iv) but before steps v) or vi). The reagent of step iii) may be applied to the sample separately or may be included in a reagent mixture during steps i) or iv). A corresponding kit is also provided.

The invention provides an enzymatic method for measuring the concentration of one or more analytes in the plasma portion of a blood derived sample, containing a first and a second component, where said second component interferes with the measurement of said first component. The method includes: i) diluting the sample with a reagent mixture; ii) substantially removing blood cells; iii) using a reagent which serves to temporarily prevent reaction of the second component, to generate a blocked second component; iv) causing the selective reaction of a constituent of each analyte to directly or indirectly generate detectable reaction products, where one of the analytes is the first component; v) monitoring the detectable reaction product or products; vi) relating an amount of the detectable product or products and/or a rate of formation of the detectable product or products to the concentration of each analyte, where the concentration of at least the first component is related to a corresponding detectable reaction product by means of estimating an un-measurable (fictive) endpoint. Step iii) may be carried out at any stage up to and including step iv) but before steps v) or vi). The reagent of step iii) may be applied to the sample separately or may be included in a reagent mixture during steps i) or iv). A corresponding kit is also provided.