University of North Florida
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Stuart Chalk, Ph.D.
Department of Chemistry
University of North Florida
Phone: 1-904-620-1938
Fax: 1-904-620-3535
Email: schalk@unf.edu
Website: @unf

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Wolfgang Weinmann

Abbrev:
Weinmann, W.
Other Names:
Address:
Institute of Forensic Medicine, Klinikum der Albert-Ludwigs-Universitat Freiburg, Germany
Phone:
+49-761-203-6854
Fax:
+49-761-203-6858

Citations 2

"Ion Suppression Effects In Liquid Chromatography-electrospray-ionisation Transport-region Collision Induced Dissociation Mass Spectrometry With Different Serum Extraction Methods For Systematic Toxicological Analysis With Mass Spectra Libraries"
J. Chromatogr. B 2002 Volume 773, Issue 1 Pages 47-52
Claudia Müller, Patrick Schäfer, Myl&eagrave;ne Störtzel, Susanne Vogt and Wolfgang Weinmann

Abstract: Ion suppression effects during electrospray-ionsation mass spectrometry (ESI-MS) caused by different sample preparation procedures for serum were investigated. This topic is of importance for systematic toxicological analysis for which LC-ESI-MS has been developed with transport-region collision-induced dissociation (ECI-CID) and mass spectra library searching. With continuous post-column infusion of two test compounds-codeine and glafenine-the ion suppression effects of extracted biological matrix obtained after a standard liquid-liquid extraction, a mixed-mode solid-phase extraction (SPE) method, a protein precipitation method and a combination of precipitation with polymer-based mixed-mode SPE have been investigated. Extracted ion chromatograms of codeine ([M+H](+), m/z 300) and glafenine ([M-H](-), m/z 371) were used for monitoring ion suppression. Severe ion suppression effects for codeine and glafenine were detected in positive and in negative ionisation modes, respectively, in the LC-front peak after serum clean-up with SPE (acid/neutral fraction) and protein precipitation as well as with protein precipitation combined with SPE. Less ion suppression of codeine in positive mode was found with liquid-liquid extraction of serum samples. No ion suppression was detected with the second fraction of the mixed-mode SPE (using RP-C-8 and cation-exchange phase) in both ionisation modes. All suppression effects were caused by polar and unretained matrix components, which were present after extraction and/or protein precipitation. However, no specific ion suppression was seen after elution of the polar LC-front throughout the whole gradient. It could be demonstrated, that ion suppression is not generally present at any retention time when using reversed-phase HPLC with rather long gradient programs, but may play an important role in case of high-throughput LC-MS analysis, when the analyte is not separated from the LC-front, or in flow injection analysis without chromatographic separation. (C) 2002 Elsevier Science B.V. All rights reserved.

"Fast Screening For Drugs Of Abuse By Solid Phase Extraction Combined With Flow Injection Ionspray-tandem Mass Spectrometry"
J. Anal. Toxicol. 1998 Volume 22, Issue 4 Pages 319-328
W. Weinmann (Wolfgang) and M. Svoboda

Abstract: A fast anal. approach for the simultaneous quant. screening for illicit drugs in serum and urine without tedious chromatography separation steps was developed by combining solid phase extraction (SPE) followed by flow injection analysis (FIA) with ion spray-ionization and tandem mass spectrometry (MS-MS) detection using a PE Sciex API 300 triple-quadrupole MS. MS-MS anal. was performed by sequentially isolating the precursor ions of the analytes and their deuterated standards with subsequent fragmentation and monitoring of one fragment ion for each substance. A multiple-reaction monitoring experiment was set up for morphine (MO), codeine (COD), amphetamine (AMP), benzoylecgonine (BZE), and their deuterated analogs. For method evaluation, serum samples spiked with 2-1000 ng of each drug and deuterated standards were extd. by mixed-mode SPE, redissolved in MeCN-NH4OAc-buffer, and directly injected by flow injection into the ion spray source. The specificity of this new method was demonstrated by testing compounds with similar chemical structure for interferences from the analytes of interest (e.g., hydromorphone, morphine glucuronide, and 6-monoacetylmorphine with MO; dihydrocodeine and hydrocodone with COD; cocaine [COC] and ecgonine methylester with BZE; methamphetamine with AMP). The possibility of interferences of such compounds with the FIA-ion spray-MS-MS screening method is discussed. Spiked serum samples and serum and urine samples from drug addicts and victims of drug abuse were analyzed with FIA-MS-MS and, after derivatization, with gas chromatography-mass spectrometry (GC-MS). Comparable quant. results were obtained with both methods; no interferences with metabolites or other compounds were found. The FIA-ionspray-MS-MS method is a fast, quant., sensitive, and highly specific alternative method to drug-screening by immunoassays, high-performance liquid chromatography, and GC-MS. It can be used for the simultaneous detection of different drugs and metabolites such as opiates, COC, AMP derivatives, and many other drugs.
Drugs Morphine Codeine Amphetamine Benzoylecgonine Serum Human Urine Mass spectrometry Mass spectrometry Solid phase extraction Interferences Method comparison