Abstract: A kit or composition for in situ simultaneously derivatization of 14 phenol and carboxylic acid metabolites of benzene, toluene, ethyl benzene, and xylene (BTEX) in a urine sample is disclosed. The derivatization imparts a positive charge to phenol and carboxylic acid for subsequent LC-MS analysis. Limit of detection reached part-per-trillion levels for o-Cresol and part-per-billion levels for the remaining BTEX metabolites. BTEX metabolites can be detected in less than 35 mins according to one embodiment of the invention. Methods, kits and compositions disclosed herein can be used for in situ simultaneous derivatization of phenol and carboxylic acid in aqueous solution in general.

Abstract: A kit or composition for in situ simultaneously derivatization of 14 phenol and carboxylic acid metabolites of benzene, toluene, ethylbenzene, and xylene (BTEX) in a urine sample is disclosed. The derivatization imparts a positive charge to phenol and carboxylic acid for subsequent LC-MS analysis. Limit of detection reached part-per-trillion levels for o-Cresol and part-per-billion levels for the remaining BTEX metabolites. BTEX metabolites can be detected in less than 35 mins according to one embodiment of the invention. Methods, kits and compositions disclosed herein can be used for in situ simultaneous derivatization of phenol and carboxylic acid in aqueous solution in general.

Abstract: A kit or composition for in situ simultaneously derivatization of 14 phenol and carboxylic acid metabolites of benzene, toluene, ethylbenzene, and xylene (BTEX) in a urine sample is disclosed. The derivatization imparts a positive charge to phenol and carboxylic acid for subsequent LC-MS analysis. Limit of detection reached part-per-trillion levels for o-Cresol and part-per-billion levels for the remaining BTEX metabolites. BTEX metabolites can be detected in less than 35 mins according to one embodiment of the invention. Methods, kits and compositions disclosed herein can be used for in situ simultaneous derivatization of phenol and carboxylic acid in aqueous solution in general.

Abstract: The present invention comprises a safe and effective system for removal of a range of common pharmaceutical compounds. The formulation comprises activated carbon, accompanied by some larger pebble-like material to help break up capsules and tablets upon shaking, in the presence of an acidified liquid medium. Drugs are added to the bottle and the bottle is shaken so that the drugs are dissolved by the liquid solution and are irreversibly adsorbed onto activated carbon, thereby sequestering them from further use.

Abstract: A safe and effective system for removal of a range of common pharmaceutical compounds. The formulation comprises activated carbon, accompanied by a dissolution aid, such as a larger pebble-like material, in the presence of an acidified liquid medium. In one exemplary method, drugs are added to the formulation in a container, whereby chemicals contained within the drug are irreversibly adsorbed onto activated carbon, thereby rendering them inactive and sequestered from further use.

Abstract: The present invention comprises a safe and effective system for removal of a range of common pharmaceutical compounds. The formulation comprises activated carbon, accompanied by some larger pebble-like material to help break up capsules and tablets upon shaking, in the presence of an acidified liquid medium. Drugs are added to the bottle and the bottle is shaken so that the drugs are dissolved by the liquid solution and are irreversibly adsorbed onto activated carbon, thereby sequestering them from further use.