The present invention is a kit for the determination of a neurodegenerative disease wherein separately from each other the content of kynurenine and kynurenic acid in a body fluid is determined and the quotient of the content of kynurenine to the content of kynurenic acid is calculated.

A system and method for using new biomarkers to assess individual diseases is provided. In one embodiment of the present invention, absolute quantification of annotated metabolites by mass spectrometry is used to identify certain biomarkers and derivatives thereof (i.e., signatures), which are then used to screen for, diagnose, predict, prognose, and treat various diseases, including, but not limited to, breast cancer, ovarian cancer, colorectal cancer, pancreatic cancer, and acute graft-versus-host disease.

Nutritive polypeptides are provided herein. Also provided are various other embodiments including nucleic acids encoding the polypeptides, recombinant microorganisms that make the polypeptides, vectors for expressing the polypeptides, methods of making the polypeptides using recombinant microorganisms, compositions and formulations that comprise the polypeptides, and methods of using the polypeptides, compositions and formulations.

Disclosed herein is a method of determining an endogenous analyte released from skin of a subject. The endogenous analyte is selected from the group consisting of an amino acid, a hormone, a neurotransmitter and combinations thereof. The method includes the steps of obtaining a sample which contains the endogenous analyte from the skin of the subject using a probe; desorbing the endogenous analyte from the sample; subjecting the desorbed endogenous analyte to an ionization reaction with a charged reactive species generated by an ionization device, so as to produce an ionized endogenous analyte; and determining the ionized endogenous analyte with a mass spectrometer.

The invention relates to diagnostic methods for assessing the need of a subject for treatment with an anti-oxidant, or alternatively, for determining the utilization efficiency and ultimate effectiveness of anti-oxidant therapy in subjects having been treated with antioxidants. More specifically, the methods of the present invention are particularly useful in prophylactic assessment of individuals at risk for developing diseases or conditions in which oxidative stress plays a role, such that an appropriate therapeutic regimen can be prescribed for that individual, thus leading to alternative therapies and/or life style changes. The invention further relates to methods for assessing the need for, the utilization efficiency and the effectiveness of therapy in subjects having received therapy with specific antioxidant and immune enhancing formulations. Kits are also provided for measuring the levels of markers of oxidative stress and immune cell numbers.

This document provides methods and materials involved in assessing mammals (e.g., humans) for arthritis. For example, methods and materials for assessing a mammal's gut microbial diversity to identify the mammal as having arthritis (e.g., rheumatoid arthritis) are provided. This document also provides methods and materials involved in treating arthritis.

The present disclosure relates to a biosensor capable of measuring the total concentration of one or a plurality of ammonia or ammonium ions with the use of indophenol reagents in the presence of an ionomer. In some embodiments, the biosensor comprises a perflurinated membrane that comprises an ionomer in contact with an alkali buffer in a vessel configured to receive a sample, such as whole blood. The disclosure also relates to a method of detecting or quantifying the ammonia or ammonium ion concentration in whole blood in a point of care bio sensor without reliance on gas chromatography or any measurement that takes more than about twenty minutes.

A method of predicting progression of gestational diabetes (GDM) to Type 2 diabetes (T2D) in a subject is provided. The method comprises: analyzing a biological sample of a subject to determine levels of a plurality of metabolites in the sample, wherein the plurality of metabolites comprises one or more of PCaeC40:5 and SM(OH)C14:1 and at least two metabolites set forth in Table 3, 4 and/or 6; and comparing the determined levels of the plurality of metabolites in the sample to a corresponding plurality of reference levels in order to predict progression of GDM to T2D in the subject.

A system and method for using new biomarkers to assess individual diseases is provided. In one embodiment of the present invention, absolute quantification of annotated metabolites by mass spectrometry is used to identify certain biomarkers and derivatives thereof (i.e., signatures), which are then used to screen for, diagnose, predict, prognose, and treat various diseases, including, but not limited to, breast cancer, ovarian cancer, colorectal cancer, pancreatic cancer, and acute graft-versus-host disease.

Disclosed herein are methods of analyzing a biological sample comprising: separating components of the biological sample via reversed-phase (RP) chromatography to obtain an elute; subjecting the elute to separation via ion-exchange (IEX) chromatography or mixed-mode IEX chromatography; and detecting the separated compounds to determine the components of the biological sample. Also disclosed are devices comprising a reversed-phase (RP) chromatography column in communication with an ion-exchange (IEX) chromatography column or mixed-mode IEX chromatography column, wherein there is no switching valve between the columns.