Disclosed are a pregabalin artificial hapten, artificial antigen and preparation method therefor and application thereof. The structure of the pregabalin artificial hapten is shown as formula (I) and structure of the pregabalin artificial antigen is shown as formula (II). The application is in the preparation for anti-pregabalin antibodies with the pregabalin artificial antigen. The pregabalin artificial hapten retains the characteristic structure of pregabalin to the greatest extent, and has an active group that can be coupled with a carrier protein, and can be used as an antigenic determinant; the pregabalin artificial antigen obtained by further preparation can immune to obtain anti-pregabalin antibodies with high affinity, high sensitivity and strong specificity. The titer of the immune serum obtained by immunizing New Zealand white rabbits is as high as 1:90000, which can be used for rapid and accurate immunoassay of pregabalin.

Compounds and methods for use in detecting gabapentin in a sample suspected of containing gabapentin are disclosed. Gabapentin derivatives are used to produce gabapentin conjugates. A gabapentin-immunogenic carrier conjugate may be used as an immunogen for the preparation of an anti-gabapentin antibody. A gabapentin-detectable label may be used in a signal producing system in gabapentin assays.

Compounds and methods for use in detecting gabapentin in a sample suspected of containing gabapentin are disclosed. Gabapentin derivatives are used to produce gabapentin conjugates. A gabapentin-immunogenic carrier conjugate may be used as an immunogen for the preparation of an anti-gabapentin antibody. A gabapentin-detectable label may be used in a signal producing system in gabapentin assays.

Provided are methods for determining the amount of lacosamide in a sample using mass spectrometry. The methods generally involve ionizing lacosamide in a sample and detecting and quantifying the amount of the ion to determine the amount of lacosamide in the sample.

Methods, compositions and kits are disclosed directed at levetiracetam derivatives, immunogens, signal generating moieties, antibodies that bind levetiracetam and immunoassays for detection of levetiracetam.

Provided are methods for determining the amount of lacosamide in a sample using mass spectrometry. The methods generally involve ionizing lacosamide in a sample and detecting and quantifying the amount of the ion to determine the amount of lacosamide in the sample.

Provided are methods for determining the amount of lacosamide in a sample using mass spectrometry. The methods generally involve ionizing lacosamide in a sample and detecting and quantifying the amount of the ion to determine the amount of lacosamide in the sample.

The present invention relates to compositions and methods for analyzing analytes of interest in liquid samples by mass spectrometry, and preferably in patient samples. Preferred analytes of interest include sirolimus (rapamycin), corticosteroids, bile acids and lamotrigine (lamictal). In one embodiment, by careful selection of target ions, a number of corticosteroids can be analyzed simultaneously and without interference from closely related molecules. In another embodiment, the present methods combine high turbulence liquid chromatography with mass spectrometry performed in positive and negative mode in a single assay to enable the detection and quantification of the compositon of bile acid pools. By combining mass spectrometry and high-throughput chromatography, the methods and compositions described herein can provide a rapid, sensitive, and accurate assay for use in large clinical laboratories.

Provided are methods for determining the amount of lacosamide in a sample using mass spectrometry. The methods generally involve ionizing lacosamide in a sample and detecting and quantifying the amount of the ion to determine the amount of lacosamide in the sample.

Disclosed are a pregabalin artificial hapten, artificial antigen and preparation method therefor and application thereof. The structure of the pregabalin artificial hapten is shown as formula (I) and structure of the pregabalin artificial antigen is shown as formula (II). The application is in the preparation for anti-pregabalin antibodies with the pregabalin artificial antigen. The pregabalin artificial hapten retains the characteristic structure of pregabalin to the greatest extent, and has an active group that can be coupled with a carrier protein, and can be used as an antigenic determinant; the pregabalin artificial antigen obtained by further preparation can immune to obtain anti-pregabalin antibodies with high affinity, high sensitivity and strong specificity. The titer of the immune serum obtained by immunizing New Zealand white rabbits is as high as 1:90000, which can be used for rapid and accurate immunoassay of pregabalin.