W. J. G. M. Cuppen scite author profile

W. J. G. M. Cuppen

3Publications

33Citation Statements Received

10Citation Statements Given

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Direct introduction of large-volume urine samples into an on-line immunoaffinity sample pretreatment-capillary gas chromatography system

Farjam¹,

Vreuls²,

Cuppen³

et al. 1991

Anal. Chem.

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An immunoaffinity precolumn containing immobilized antibodies raised against the synthetic steroid hormone beta-19-nortestosterone, has been used for the automated sample pretreatment of urine samples containing beta-19-nortestosterone or the related steroids norethindrone and norgestrel. The sample pretreatment system was coupled on-line to a capillary GC. The on-line connection between the immunoaffinity precolumn and the capillary GC was realized with an interface that consisted of a 10 mm X 2 mm i.d. reversed-phase pre-column and a diphenyltetramethyldisilazane-deactivated GC retention gap. After preconcentration on the immunoaffinity precolumn the analytes were eluted and reconcentrated on the reversed-phase precolumn. Subsequently, this precolumn was desorbed with 75 microL of ethyl acetate, which was directly introduced into the retention gap by using partially concurrent solvent evaporation. The system allows the automated pretreatment and GC analysis of 5-25-mL urine samples for the ppt-level determination of 19-norsteroids. The general applicability and potential of on-line immunoaffinity-capillary GC systems are discussed.

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Ethyl acetate for the desorption of a liquid chromatographic precolumn on‐line into a gas chromatograph

Vreuls¹,

Cuppen²,

Jong³

et al. 1990

J. High Resol. Chromatogr.

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Polar solvents for the desorption of a liquid chromatographic precolumn coupled on‐line with a capillary gas chromatograph

Vreuls¹,

Cuppen²,

Dolecka³

et al. 1989

J. High Resol. Chromatogr.

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SummaryCoupling column liquid chromatography and gas chromatography on-line is becoming more important in analytical chemistry. Especiallywhen large amounts of polar solvents can be introduced into the gas chromatograph without any problem, the technique will offer new possibilities. With a DPTMDS retention gap, evaporation rates and flooded zones of some solvents have been determined. Two modes of operation using partially concurrent solvent evaporation conditions are discussed: (1) injecting a sample via a loop of an LC valve followed by introduction into the gas chromatograph with an LC pump; (2) trace enrichment on a precolumn followed by on-line desorption with n-propanol into the gas chromatograph. Preliminary results for a splitter system, inserted between the retention gap and the analytical column which allows a considerable increase of the evaporation rate are also presented.

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W. J. G. M. Cuppen

Direct introduction of large-volume urine samples into an on-line immunoaffinity sample pretreatment-capillary gas chromatography system

Ethyl acetate for the desorption of a liquid chromatographic precolumn on‐line into a gas chromatograph

Polar solvents for the desorption of a liquid chromatographic precolumn coupled on‐line with a capillary gas chromatograph

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