The present invention to provides methods, kits, and compositions for: i) detecting the level of 3-bromotyrosine in a sample that has been treated to liberate 3-bromotyrosine from 4-O-glucuronide-3-bromotyrosine, and/or ii) detecting the level of 4-O-glucuronide-3-bromotyrosine, and/or the combined level of both 4-O-glucuronide-3-bromotyrosine and 3-bromotyrosine, in a sample that has not been treated to liberate 3-bromotyrosine from 4-O-glucuronide-3-bromotyrosine. In certain embodiments, such detected levels are used to: i) identify the presence, severity, or risk of an eosinophilic disorder (e.g., asthma or a TH2-high eosinophilic disorder); ii) identify therapy effective for treating asthma or an eosinophilic disorder; or iii) identify patients suitable for treatment with therapeutic agents targeted to asthma or an eosinophilic disorder.

The present invention relates to the fields of life sciences and medicine. Specifically, the invention relates to a method for determining a mitochondrial disorder of a subject or predicting a prognosis of a subject having a mitochondrial disorder, wherein the method comprises determining specific biomarkers from a sample of a subject. Also, the present invention relates to a method of selecting a treatment for a subject having a mitochondrial disorder or following up a treatment of a subject having a mitochondrial disorder, wherein the method comprises determining specific biomarkers from a sample of a subject. Still, the present invention relates to a kit comprising tools for determining said specific biomarkers from a sample of a subject and to use of the kit or specific biomarkers of the present invention for determining a mitochondrial disorder of a subject, predicting a prognosis of a subject having a mitochondrial disorder, selecting a treatment for a subject having a mitochondrial disorder or following up a treatment of a subject having a mitochondrial disorder.

The present invention provides: a marker for determining critical stage kidney disease by using an indicator value based on the amount of D-alanine in the blood or the amount of D-alanine and L-alanine therein; a blood analysis method which uses said marker for patients undergoing surgery or intensive care; and a blood analysis system for determining critical stage kidney disease in patients undergoing surgery or intensive care.

The present invention provides a method for determining glomerular filtration ability on the basis of the amount of D-serine in the blood. The present invention provides a blood analysis system which includes a storage unit, an analysis measurement unit, a data processing unit and a glomerular filtration ability output unit, wherein: the storage unit stores the correlation equation between the amount of D-serine in the blood and glomerular filtration ability; the analysis measurement unit separates and quantifies the amount of D-serine in the blood; the data processing unit calculates glomerular filtration ability by inputting the D-serine amount into the correlation equation stored in the storage unit; and a pathology information output unit outputs glomerular filtration ability information.

Disclose are methods, compositions and kits for the determination of kidney function that provide an alternative to the standard-of-cure used for eGFR calculations. Described herein are methods for quantitative measurement of ADMA and hydration markers in a urine sample, and process used to transform the input of these methods into a measure of kidney function. The methods allow ADMA and other biomarkers to be detected in urine samples from a subject using a simple and inexpensive assay that can be easily performed noninvasively and only require urine samples for the prediction of kidney function.

Provided is an accurate, minimally invasive method for diagnosing dementia or mild cognitive impairment. The method for examining the likelihood of mild cognitive impairment or dementia, or the risk of dementia includes the steps of: measuring the amount of stereoisomers of proline in the biological sample collected from a subject; and comparing the level of D-proline with a reference value.

Provided herein are isotopically labeled reagents, including isotopically labeled small molecules and peptides, that can be used to detect and/or quantify β-N-methylamino-L-alanine (BMAA) in a sample. The reagents can be used as stable isotope labeled standards in analytical methods, including in conjunction with mass spectrometry, to detect and/or quantify BMAA in a sample, such as a protein sample from a subject.

Described herein are methods and composition for diagnosing and evaluating the treatment of depression using one or more biomarker metabolites for the diagnosis and monitoring treatment efficacy. In one aspect, the biomarker metabolites can be used to screen subjects for the likelihood of developing depression, the diagnosis thereof, monitoring the efficacy of treatment, and evaluating a subject's propensity for responding to treatment.

A new quantification method for measuring citrulline, which has an association with various diseases and is a biomarker particularly useful for early diagnosis of rheumatoid arthritis, an enzyme for quantification, a composition for quantification, and a kit for quantification are provided. A quantification method of citrulline is provided by adding a citrulline oxidoreductase to a sample. The oxidoreductase is an oxidase, and a concentration of the citrulline may be determined by quantifying hydrogen peroxide produced by addition of the oxidase. A concentration of the citrulline may be determined by reacting a reagent with hydrogen peroxide produced by addition of the oxidase.

Tumor invasion and metastasis is accompanied by significant activations of specific proteolysis enzymes. Tumor area is known to have increased infiltration of immunoglobulins G (“IgG”), so IgG may undergo proteolysis in this area. Serine proteases usually cleave peptide bonds between positively charged amino acids lysine and arginine. Since the intact PLG molecules as well as its fragments have lysine binding sites, they can bind to damaged IgG or fragments thereof with free C-terminal lysine that can appear in a circulation after proteolysis in the malignant tumor area. In the present invention we demonstrated the increased binding of damaged IgG or fragments thereof with free C-terminal lysine to fragments of PLG in samples from patients with breast cancer, ovarian cancer, lung cancer, colorectal cancer, prostate cancer vs. samples from healthy donors, and thus we proposed a novel diagnostic method.