Methods, systems and reagents are provided for detecting and quantifying carbonyl containing moieties in a variety of sample types. The amount of time elapsed from capturing of the carbonyl containing moieties from a sample to the detection of the carbonyl containing moieties is less than about 2 hours. Compounds are provided to facilitate labeling and detection of the carbonyl containing moieties.

The purpose of the present invention is to provide a ketogenic diet monitoring device for managing the effective state of a ketogenic diet for an animal individually. The ketogenic diet monitoring device of the present invention has a configuration in which the amount of metabolite in gases carried from the inside to the outside of the body of an animal for which the effective state of a ketogenic diet is being managed is measured once and/or a plurality of times over time and monitored.

The purpose of the present invention is to provide a ketogenic diet monitoring device for managing the effective state of a ketogenic diet for an animal individually. The ketogenic diet monitoring device of the present invention has a configuration in which the amount of metabolite in gases carried from the inside to the outside of the body of an animal for which the effective state of a ketogenic diet is being managed is measured once and/or a plurality of times over time and monitored.

A portable system is provided for measuring an analyte, such as acetone, in the breath or other bodily fluid of a user. The system includes a portable measurement device that analyzes fluid samples and generates corresponding measurements. The portable measurement device communicates with an application which runs on a smartphone or other mobile device of the user. The application tracks, and generates graphs of, the measurements, and may include various features for facilitating the analysis of the measurements.

A portable system is provided for measuring an analyte, such as acetone, in the breath or other bodily fluid of a user. The system includes a portable measurement device that analyzes fluid samples and generates corresponding measurements. The portable measurement device communicates with an application which runs on a smartphone or other mobile device of the user. The application tracks, and generates graphs of, the measurements, and may include various features for facilitating the analysis of the measurements.

The present disclosure provides an analyte sensor for use in detecting ketones. In certain embodiments, a ketones-responsive active site of a presently disclosed analyte sensor includes an enzyme system comprising β-hydroxybutyrate dehydrogenase and NADH oxidase disposed on a surface of a platinum working electrode. The present disclosure further provides methods for detecting ketones using the disclosed analyte sensors.

A sensitive method for quantitating curcuminoids in biological and other samples is described wherein curcuminoids in the sample are derivatized to boron difluoride curcuminoid complexes then analyzed by liquid chromatography-mass spectroscopy.

A sensitive method for quantitating curcuminoids in biological and other samples is described wherein curcuminoids in the sample are derivatized to boron difluoride curcuminoid complexes then analyzed by liquid chromatography-mass spectroscopy.

Methods and devices are provided for analyzing acetone in breath. One such method comprises disposing a reactant in a reaction zone within the breath analysis device, wherein the reactant comprises a primary amine disposed on a surface, and wherein the reaction zone has an optical characteristic that is at a reference level. It also comprises pre-storing a liquid nitroprusside solution within the breath analysis device separately from the reactant. The method further comprises using the breath analysis device to cause the breath to contact the reactant in the reaction zone so that the acetone in the breath reacts with the reactant to form a reaction product and, after the reaction product has been formed, using the breath analysis device to cause the nitroprusside solution to contact and react with the reaction product and to facilitate a change in the optical characteristic of the reaction zone relative to the reference level. The method also comprises using the breath analysis device to detect the change in the optical characteristic to sense the acetone in the breath. Apparatuses that use these methods are also described.

Methods and devices are provided for analyzing acetone in breath. One such method comprises disposing a reactant in a reaction zone within the breath analysis device, wherein the reactant comprises a primary amine disposed on a surface, and wherein the reaction zone has an optical characteristic that is at a reference level. It also comprises pre-storing a liquid nitroprusside solution within the breath analysis device separately from the reactant. The method further comprises using the breath analysis device to cause the breath to contact the reactant in the reaction zone so that the acetone in the breath reacts with the reactant to form a reaction product and, after the reaction product has been formed, using the breath analysis device to cause the nitroprusside solution to contact and react with the reaction product and to facilitate a change in the optical characteristic of the reaction zone relative to the reference level. The method also comprises using the breath analysis device to detect the change in the optical characteristic to sense the acetone in the breath. Apparatuses that use these methods are also described.