Timothy Wachs scite author profile

A miniaturized ion sprayer device is described which is suitable for coupling with chip-based analytical separation devices, multiwell plates, or surfaces containing residues of prepared samples. Two versions of a similar device are described. A "microsprayer" device suitable for coupling to the terminal edge of a capillary electrophoresis (CE) chip is constructed from modified 1/16-in. HPLC fittings. This microsprayer employs a free-standing liquid junction formed via continuous delivery of a flow (2-6 microL/min) of suitable solvent which carries the CE effluent through a pneumatically assisted electrospray (ion spray) needle positioned in front of an atmospheric pressure ionization (API) mass spectrometer. A related but larger "minisprayer" device is also described which employs the same features as the microsprayer, but with an extended sampling capillary tube which can reach into the depths of 96-, 384-, and 1536-multiwell plates containing either sample solutions or dried sample residues. The minisprayer may be positioned in front of an API ion sampling orifice and the multiwell plate positioned stepwise from sample to sample for analysis of trace samples contained in the wells. The resulting infusion-ion spray mass spectrometric analyses can provide sequential analysis of previously prepared biological samples containing small drug compounds, proteins, and related compounds. This same device is also shown to be useful for sampling from a surface containing trace level compounds of biological interest. Results are shown that demonstrate microscale separations and selected ion monitoring (SIM) capillary electrophoresis/mass spectrometry (CE/MS) detection of berberine and palmatine using the microsprayer. SIM ion spray determination of a 2 ng/microL solution of berberine contained as a dry residue in the bottom of a 384-well plate as well as full-scan electrospray mass spectra for low-picomole levels of cytochrome c contained in a 1536-well microtiter plate are shown. The respective micro- and minisprayer devices provide a simple yet effective means of transferring trace-level samples either from a microscale or chip-based separation device as well as samples contained in multiwell plates which are increasingly employed in high-throughput applications in the pharmaceutical industry.

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Atmospheric Pressure Ionization Mass Spectrometry

Huang¹,

Wachs²,

Conboy³

et al. 1990

Anal. Chem.

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Atmospheric pressure ionization (API) combined with mass spectrometry (APIMS) can provide many benefits, including analytical ruggedness as well as enhanced sensitivity and selectivity. Although some people are just learning about APIMS, the concept originated more than 30 years ago (J).At first it may appear impractical to couple ionization conducted at atmospheric pressure with mass analysis and detection carried out under high vacuum.

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Design and applications of a self-aligning liquid junction-electrospray interface for capillary electrophoresis-mass spectrometry

Wachs¹,

Sheppard²,

Henion³

1996

Journal of Chromatography B: Biomedical Sciences and Applicatio

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Chip-Based P450 Drug Metabolism Coupled to Electrospray Ionization-Mass Spectrometry Detection

et al. 2003

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A chip-based P450 in vitro metabolism assay coupled with ESI-MS and ESI-MS/MS detection is described in this paper. The chips were made of a cyclic olefin polymer using a hot embossing process. The introduction of reagent solutions into the chip was carried out using fused-silica capillaries coupled to two syringes with the flow rate controlled by a syringe pump. Initial experiments described here employed a small commercial guard column in an off-chip format to desalt and concentrate the products of the enzymatic reaction prior to ESI-MS analysis. The system was used both to yield the Michaelis constant (K m ) of the P450 biotransformation of imipramine into desipramine and to determine the IC50 value of a chemical inhibitor (tranylcypromine) for this CYP2C19-mediated reaction. The results demonstrated that the kinetics of the reaction inside the 4-µL volume within the channels of the cyclic olefin polymer chip provided results in agreement with those reported in the literature using conventional assays. The above reactions were carried out using human liver microsomes, and the metabolites were detected by ESI-MS showing the potential of the chip-based P450 reaction for metabolite screening studies as well as for P450 inhibition assays. A porous monolithic column was subsequently integrated into the chip to perform the reaction mixture cleanup process in an integrated fashion on the chip that is necessary for ESI-MS detection. The miniature monolithic SPE column was prepared in situ inside the chip via UV-initiated polymerization. The results obtained using the integrated system demonstrated the possibility of performing P450 enzymatic reactions in a microvolume reaction chamber coupled directly to ESI-MS detection and required less than 4 µg of HLM protein.

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Timothy Wachs

Electrospray Device for Coupling Microscale Separations and Other Miniaturized Devices with Electrospray Mass Spectrometry

Atmospheric Pressure Ionization Mass Spectrometry

Design and applications of a self-aligning liquid junction-electrospray interface for capillary electrophoresis-mass spectrometry

Chip-Based P450 Drug Metabolism Coupled to Electrospray Ionization-Mass Spectrometry Detection

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