July/August 2004, Volume 28, Number 5
Monitoring Sulfur Mustard Exposure by Gas Chromatography–Mass Spectrometry Analysis of Thiodiglycol Cleaved from Blood Proteins
Benedict R. Capacio, J. Richard Smith, Michael T. DeLion, Dana R. Anderson, John S. Graham, Gennady E. Platoff, and William D. Korte
Procedure for Monitoring Exposure to Sulfur Mustard Based on Modified Edman Degradation of Globin
D. Noort, A. Fidder, H.P. Benschop, L.P.A. de Jong, and J.R. Smith
Standard Operating Procedure for Immunuslotblot Assay for Analysis of DNA/Sulfur Mustard Adducts in Human Blood and Skin
G.P. van der Schans, R. Mars-Groenendijk, L.P.A. de Jong, H.P. Benschop, and D. Noort
Quantitation of Biomarkers of Exposure to Nitrogen Mustards in Urine from Rats Dosed with Nitrogen Mustards and from an Unexposed Human Population
Sharon W. Lemire, John R. Barr, David L. Ashley, Carl T. Olson, and Timothy L. Hayes
Quantitation of the Sulfur Mustard Metabolites 1,1'-Sulfonylbis[2-(methylthio)ethane] and Thiodiglycol in Urine Using Isotope-Dilution Gas Chromatography–Tandem Mass Spectrometry
Anne E. Boyer, Doris Ash, Dana B. Barr, Carrie L. Young, W. Jack Driskell, Ralph D. Whitehead, Jr., Maria Ospina, Kerry E. Preston, Adrian R. Woolfitt, Rodolfo A. Martinez, L.A. "Pete" Silks, and John R. Barr
Retrospective Detection of Exposure to Sulfur Mustard: Improvements on an Assay for Liquid Chromatography–Tandem Mass Spectrometry Analysis of Albumin/Sulfur Mustard Adducts
D. Noort, A. Fidder, A.G. Hulst, A.R. Woolfitt, D. Ash, and J.R. Barr
A Rapid, Sensitive Method for the Quantitation of Specific Metabolites of Sulfur Mustard in Human Urine Using Isotope-Dilution Gas Chromatography–Tandem Mass Spectrometry
Carrie L. Young, Doris Ash, W. Jack Driskell, Anne E. Boyer, Rodolfo A. Martinez, L.A. Silks, and John R. Barr
Analysis of β-Lyase Metabolites of Sulfur Mustard in Urine by Electrospray Liquid Chromatography–Tandem Mass Spectrometry
Robert W. Read and Robin M. Black
Analysis of the Sulfur Mustard Metabolites 1,1'Sulfonylbis[2-S-(N-acetylcysteinyl)ethane] in Urine by Negative Ion Electrospray Liquid Chromatography–Tandem Mass Spectrometry
Robert W. Read and Robin M. Black
Quantitation of Fluoride Ion Released Sarin in Red Blood Cell Samples by Gas Chromatography–Chemical Ionization Mass Spectrometry Using Isotope Dilution and Large-Volume Injection
E.M. Jakubowski, J.M. McGuire, R.A. Evans, J.L. Edwards, S.W. Hulet, B.J. Benton, J.S. Forster, D.C. Burnett, W.T. Muse, K. Matson, C.L. Crouse, R.J. Mioduszewski, and S.A. Thomson
Improvements of the Fluoride Reactivation Method for the Verification of Nerve Agent Exposure
Carla E.A.M. Degenhardt, Kees Pleijsier, Marcel J. van der Schans, Jan P. Langenberg, Kerry E. Preston, Maria I. Solano, V.L. Maggio, and John R. Barr
Quantitation of Metabolites of the Nerve Agents Sarin, Soman, Cyclohexylsarin, VX, and Russian VX in Human Urine Using Isotope-Dilution Gas Chromatography–Tandem Mass Spectrometry
John R. Barr, W. Jack Driskell, Linda S. Aston, and Rodolfo A. Martinez
Identification and Characterization of the Major Huperzine A Metabolite in Rat Blood
Gregory E. Garcia, Rickey P. Hicks, David Skanchy, Deborah R. Moorah-Doctor, Bhupendra P. Doctor, and Haresh S. Ved
Gas Chromatographic–Mass Spectrometric Determination of British Anti-Lewisite in Plasma
C.E. Byers, E.R. Holloway, W.D. Korte, J.R. Smith, E.D. Clarkson, G.E. Platoff, and B.R. Capacio
Analysis of the Enantiomers of VX Using Normal-Phase Chiral Liquid Chromatography with Atmospheric Pressure Chemical Ionization-Mass Spectrometry
J. Richard Smith
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