Cover image for Analysis of Chemical Warfare Degradation Products
Title:
Analysis of Chemical Warfare Degradation Products
Personal Author:
Publication Information:
Chichester, West Sussex, United Kingdom : Wiley, 2011, ©2011.
Physical Description:
xiv, 146 pages : illustrations ; 24 cm.
ISBN:
9780470745878
Abstract:
"This book describes nerve agents and vesicants, their decomposition and their degradation products' chemistry as well as their toxicity including a list of detection techniques of nerve agents and their degradation products"-- Provided by publisher.

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30000010281241 UG447.5.O74 K76 2011 Open Access Book Book
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Summary

Summary

This book describes nerve agents and vesicants, their decomposition and their degradation products' chemistry as well as their toxicity including a list of detection techniques of nerve agents and their degradation products. This book will present their history, toxicity, comparison between different sample preparation methods, separation techniques, and detection methods all together in a short, easy to read book, tied together by a single group doing the writing and the editing to assure smooth transition from chapter to chapter, with sufficient Tables and literature references for the reader who looks to further detail.The text will illustrate the pluses and minuses of the various techniques with sufficient references for the reader to obtain extensive detail.


Author Notes

Karolin K. Kroening, Ph.D. University of Cincinnati, Cincinnati, OH, USA
Karolin received her Master''s degree in 2006 from the University of Bologna, Italy, for research based on hydroxyapatite/chitosan composites for bone substitution. At the University of Cincinnati her research focused on the identification and cytotoxicity of chemical warfare agent degradation products and protein phosphorylation studies on cerebral spinal fluid, a study that may help in the development of drugs for patients diseased with a hemorrhagic stroke. She obtained her Ph.D. in December 2010 and is currently working for Procter and Gamble in Cincinnati, OH.

Renee N. Easter , University of Cincinnati, Cincinnati, OH, USA
Renee Easter earned a B.S. from Xavier University, Cincinnati, in 2007 and is currently pursuing a Ph.D. in Analytical Chemistry from the University of Cincinnati. Her research has focused on metallomics approaches to identifying proteins associated with cerebral vasospasm, as well as using internal tags, such as sulfur and phosphorus for identification and quantification of oligonucleotides for siRNA drug applications.

Douglas D. Richardson, Ph.D., Merck Research Labs, Rahway, NJ, USA
Doug earned his B.S. in Forensic Chemistry with a minor in Biological Sciences from Ohio University in 2003. Following graduation Doug pursued his Ph.D. in the laboratory of Joseph A. Caruso at The University of Cincinnati. His research centered around advancements in elemental speciation, coupling a variety of separation techniques with element specific detection. This research was the first to utilize chromatographic techniques with inductively coupled plasma mass spectrometry for the analysis of nerve agent degradation products. In 2007, Doug defended his dissertation, earning his Ph.D. in Analytical Chemistry. Doug currently supports the development of novel pharmaceuticals within Merck Research Labs.

Stuart Willison, Ph.D., National Homeland Security Research Center at the US, Environmental Protection Agency, Cincinnati, OH, USA
Stuart Willison received his Ph.D. in Chemistry from the University of Cincinnati. He is currently working for the National Homeland Security Research Center at the US Environmental Protection Agency in Cincinnati, OH. His work involves environmental restoration following homeland security events, such as providing support in the detection, response to, and remediation of an area from a terrorist attack or an environmental disaster. Research areas include water protection and indoor/outdoor decontamination as well as method development of chemical warfare agent degradation products in various environmental matrices.

Joseph A. Caruso, Professor, University of Cincinnati, Cincinnati, OH, USA
Joe Caruso holds a Ph.D. from Michigan State University. After a one-year postdoctoral fellowship at The University of Texas - Austin, he joined the University of Cincinnati Chemistry faculty and since then he has authored or co-authored 380 scientific publications and presented more than 325 invited lectures at universities, scientific meetings, government and industry laboratories. His current research interests are in: metallomics studies involving transgenic plants and their phytoremediation mechanisms or enhancements; evaluating cell signaling changes through phospho- or metallo-proteomes as biomarkers in the CSF of certain stroke patients; investigating the metalloproteomes associated with viruses and their effect on viral capsid stability; and the effects on cell signaling changes when arsenic toxified cells are given selenium species as part of the nutrient mix.
Joe Caruso is a member of the American Chemical Society, Society for Applied Spectroscopy and a Fellow of the Royal Society of Chemistry (RSC). He is Chair of the RSC Metallomics Editorial Board. He has been honored many times including the 2000 Spectrochemical Analysis Award given by the Analytical Division of the American Chemical Society, the University of Cincinnati - Excellence in Doctoral Student Mentoring Award in 2006, and in 2007 he received the Rieveschl Award for Distinguished Scientific Research. His most recent award was to be elected Fellow of the Society of Applied Spectroscopy.


Table of Contents

Prefacep. xiii
1 Historical Milieup. 1
1.1 Organophosphorus Nerve Agentsp. 2
1.2 Blister Agentsp. 5
1.3 Sternutator Agentsp. 11
1.4 Chemical Weapons Convention (CWC)p. 13
1.4.1 Schedule of Chemicalsp. 14
1.4.2 Destruction of Chemical Weaponsp. 14
Referencesp. 16
2 Toxicity of Chemical Warfare Agents and their Degradation Productsp. 19
2.1 Organophosphorus Nerve Agent Toxicityp. 20
2.1.1 Toxicity Mechanism - Acetylcholinesterase Inhibitionp. 20
2.1.2 Exposurep. 21
2.1.3 Response, Treatment and Preventionp. 22
2.2 Toxicity of Nerve Agent Degradation Productsp. 24
2.2.1 Toxicity of GA (Tabun) Degradation Productsp. 25
2.2.2 Toxicity of GB (Sarin) Degradation Productsp. 26
2.2.3 Toxicity of GD (Soman) Degradation Productsp. 29
2.2.4 Toxicity of GF (Cyclosarin) Degradation Productsp. 33
2.2.5 Toxicity of VX Degradation Productsp. 33
2.3 Toxicity of Blister Agentsp. 36
2.4 Toxicity of Sternutator Agentsp. 45
2.4.1 Toxicity of Degradation Products of Sternutator Agentsp. 46
Referencesp. 48
3 Analysis of Chemical Warfare Agentsp. 59
3.1 Introductionp. 60
3.2 Minimally Invasive Detection Techniquesp. 61
3.3 Separation and Detection Techniquesp. 68
3.3.1 Capillary Electrophoresisp. 69
3.3.2 Ion Mobility Spectrometryp. 75
3.3.3 Gas Chromatography (GC)/Gas Chromatography-Mass Spectrometry (GC-MS)p. 79
3.3.4 Liquid Chromatography (LC)/Liquid Chromatography-Mass Spectrometry (LC-MS)p. 88
3.3.5 Desorption Electrospray Ionization and Direct Analysis in Real Time Mass Spectrometryp. 90
Referencesp. 91
4 Chemical Warfare Agent Degradation Productsp. 99
4.1 Analysis of Nerve Agent Degradation Productsp. 100
4.1.1 Sample Preparationp. 101
4.1.2 Liquid-Liquid Extraction (Pre-concentration)p. 104
4.1.3 Solid Phase Extraction (SPE)p. 105
4.1.4 Solid Phase Microextraction (SPME)p. 106
4.1.5 Stir Bar Sorptive Extraction (SBSE)p. 106
4.1.6 Derivatizationp. 107
4.2 Analytical Techniquesp. 108
4.2.1 Gas Chromatography (GC)p. 109
4.2.2 Liquid Chromatography (LC)p. 110
4.2.3 Elemental Speciationp. 114
4.2.4 Ion Mobilityp. 115
4.2.5 Capillary Electrophoresisp. 117
4.3 Analysis of Sulfur Mustard Degradation Productsp. 117
4.4 Analysis of Sternutator Degradation Productsp. 125
Referencesp. 131
Appendixp. 135
Indexp. 141