The present invention refers to a method of purifying a glucagon-like peptide 1 analogs, the method comprising a two dimensional reversed phase high performance liquid chromatography protocol, wherein the first step is carried out at a pH value between 7.0 to 7.8 using a mobile phase comprising a phosphate buffer and acetonitrile, and the second step is carried out at a pH value below 3.0 using a mobile phase comprising trifluoroacetic acid and acetonitrile.

The present invention relates to a gas-liquid separator for a chromatography system, comprising: a) a separating region having an inlet nozzle, a baffle unit and a gas distribution unit; (b) a dividing region having a liquid outlet; and (c) a gas discharge region having a gas outlet; wherein the separating region is connected to the dividing region by a separating opening and the distance of the inlet nozzle from the baffle unit is greater than the smallest longitudinal extension of the separating opening and the inlet nozzle is configured such that a gas-liquid stream directed through the inlet nozzle can act on the baffle unit.

The present invention further relates to a chromatography system comprising a separator according to the invention and to a chromatography method wherein the separator is used.

Provided are a method, an apparatus, and a kit for detecting a neuroblastoma in a subject and/or for monitoring a therapeutic effect on the neuroblastoma, by measuring a urinary tumor marker(s) in a sample from the subject.

A method for extracting an analyte in a sample is described. A sample and a solution in a microwave-extraction vial are microwave-heated and agitated. A vapor produced in the vial can be extracted into a liquid-phase medium contained in a porous membrane bag situated in the vial. The liquid-phase medium containing the vapor extract may then be analyzed for an analyte with gas chromatography-mass spectrometry.

A method for extracting an analyte in a sample is described. A sample and a solution in a microwave-extraction vial are microwave-heated and agitated. A vapor produced in the vial can be extracted into a liquid-phase medium contained in a porous membrane bag situated in the vial. The liquid-phase medium containing the vapor extract may then be analyzed for an analyte with gas chromatography-mass spectrometry.

The present disclosure generally relates to improved methods for separating and analyzing compounds by liquid chromatography, particularly when coupled with mass spectrometry. The methods include the addition of an additive to a mobile phase carrying a sample. The mobile phase additive may be effective for improving peak shapes of targeted analytes in acquired data, and/or eliminating or at least reducing ion suppression. The methods are particularly suited for anionic compounds such as phosphorylated compounds.

The invention relates to a method for the chromatographic purification of at least one cannabinoid compound, wherein the method comprises a main purification stage comprising the steps of: injecting an initial mixture comprising the at least one cannabinoid compound and one or more additional compounds onto a main stationary phase comprising silica particles, the silica particles comprising amino and/or diol groups; performing an elution with an elution solution, and collecting one or more elution fractions; and optionally, washing the main stationary phase with a washing solution and collecting one or more washing fractions; at least one of the elution fractions or washing fractions containing the at least one cannabinoid compound purified from the one or more additional compounds.

A system and method for purifying coenzyme Q.sub.10 are provided. The method includes: passing a CoQ.sub.10-containing crude product through a first chromatographic column to obtain a first CoQ.sub.10-containing intermediate product. The method further includes preparing, based on the first CoQ.sub.10-containing intermediate product, a second CoQ.sub.10-containing intermediate product. The method further includes passing the second CoQ.sub.10-containing intermediate product through a second chromatographic column to obtain a third CoQ.sub.10-containing intermediate product. The method further includes obtaining purified CoQ.sub.10 product by purifying the third CoQ.sub.10-containing intermediate product.

A microfluidic device for analysing a specimen comprises a loading area for loading the specimen of interest and an analytical column. The loading area is connected on two sides to a first duct and a second duct respectively, both integrated in the microfluidic device. The microfluidic device comprises a first integrated input connected to the first duct to take the specimen into the loading area, a first integrated output connected to the second duct to discharge the rest of the specimen, once it has flown through the loading area, and a second integrated output downstream the analytical column. The first integrated output is arranged for during a first loading period of time being in circuit connected to the first integrated input so as to load the sample into the loading zone of the device while preventing loss of specimen during loading of the sample into the analytical column.

Provided is a method capable of shortening the time required for analysis and capable of analyzing various substances produced by microorganisms. A method for analyzing a metabolite of a microorganism according to the present invention includes: a step of supplying a mobile phase including carbon dioxide in a liquid state, a subcritical state, or a supercritical state to a container in which a microorganism cultured in a medium is contained together with the medium, to move a component of a metabolite of the microorganism present in the microorganism and the medium to the mobile phase; a step of introducing a mobile phase to which a component of the metabolite has moved into a column; and a step of performing mass spectrometry on a component of the metabolite contained in the mobile phase that has passed through the column.