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This book provides a serious introduction to the subject of mass
spectrometry, providing the reader with the tools and information
to be well prepared to perform such demanding work in a real-life
laboratory. This essential tool bridges several subjects and many
disciplines including pharmaceutical, environmental and biomedical
analysis that are utilizing mass spectrometry:
Covers all aspects of the use of mass spectrometry for
quantitation purposes
Written in textbook style to facilitate understanding of this
topic
Presents fundamentals and real-world examples in a
'learning-though-doing' style
Auteur
Professor Robert K Boyd, National Research Council, Institute for National Measurement Standards, Ottawa, Canada
Robert Boyd obtained his B Sc and Ph D from St Andrews University. In 1962 he took a post-doctoral fellow position at NRC followed by periods at the University of Toronto & University of Guelph. In 1986 he re-joined the NRC, and since that time has served as adjunct professor at Dalhousie University (1992-2001). Since 2001 he has been Researcher Emeritus at the NRC in Ottawa.
Professor Boyd has published over 160 research papers, four book chapters & 10 NRC Technical reports. In 1002 he received the Maxxam Award for Analytical Chemistry and in 2003 the Queen Elizabeth II Gold Jubilee Medal. He is currently Chair of the Science Advisory Board for the Genome Prarie project on enabling technologies for proteomics. And a member of the NSERC Committee for Scientific & Technical review of ISTC proposals. He was an editor for Rapid Communications in Mass Spectrometry from 1990 1997 and from 1997 2005 was the journal's Editor-in-Chief.
Dr Robert A Bethem, senior VP of the Bioanalytical Group at Alta Analytical Laboratory, CA, USA and Professor Dwight Matthews of the University of Vermont, USA
Texte du rabat
This book is devoted to the use of mass spectrometry in quantitative measurements of amounts of target (known) chemical compounds present at trace levels in complex matrices, such as drugs and their metabolites in body fluids, pesticide residues in foodstuffs, contaminants in drinking water, etc. Such demanding measurements, defined as 1 part in 106 1012, involve the use of a wide range of apparatus and of experimental procedures and methods of data evaluation, all of which must be utilized properly if reliable estimates of chemical concentrations and their associated uncertainties are to be obtained. While this is true of any chemical analysis, modern advances in trace-level analysis are critically dependent on developments in mass spectrometry.
The approach adopted throughout the book is to emphasize the fundamentals underlying the scientific instruments and methodologies, illustrated by historically important developments and more recent innovations. However, discussions of the fundamentals are reinforced and related to the real-world by two chapters dedicated to method development and validation. Finally, how "the fundamental things apply" to real-world problems is illustrated in the final chapter devoted to representative examples from a wide range of application areas.
This book does not cover important branches of mass spectrometry that provide accurate and precise quantitative measurements of relative concentrations, e.g. variations in isotopic ratios of an element by isotope ratio mass spectrometry and accelerator mass spectrometry. Rather, it is mainly concerned with determinations of absolute amount of substance, particularly for small organic molecules present at trace levels in complex matrices.
The book
covers analysis of "small" (< 2000 Da) organic molecules, in environmental and biomedical matrices (trace level analyses of metals and other elements are not included).
Résumé
This book provides a serious introduction to the subject of mass spectrometry, providing the reader with the tools and information to be well prepared to perform such demanding work in a real-life laboratory. This essential tool bridges several subjects and many disciplines including pharmaceutical, environmental and biomedical analysis that are utilizing mass spectrometry:
Contenu
Preface.
Acknowledgements.
1 Measurement, Dimensions and Units.
1.1 Introduction.
1.2 The International System of Units (SI).
1.3 'Mass-to-Charge Ratio' in Mass Spectrometry.
1.4 Achievable Precision in Measurement of SI Base Quantities.
1.5 Molecular Mass Limit for Trace Quantitation by Mass Spectrometry.
1.6 Summary of Key Concepts.
2 Tools of the Trade I. The Classical Tools.
2.1 Introduction.
2.2 Analytical and Internal Standards: Reference Materials.
2.3 The Analytical Balance.
2.4 Measurement and Dispensing of Volume.
2.5 Preparation of Solutions for Calibration.
2.6 Introduction to Calibration Methods for Quantitative Analysis.
2.7 Summary of Key Concepts.
3 Tools of the Trade II. Theory of Chromatography.
3.1 Introduction.
3.2 General Principles of Chemical Separations.
3.3 Summary of Important Concepts.
3.4 Plate Theory of Chromatography.
3.5 Nonequilibrium Effects in Chromatography: the van Deemter Equation.
3.6 Gradient Elution.
3.7 Capillary Electrophoresis and Capillary Electrochromatography.
Appendix 3.1 Derivation of the Plate Theory Equation for Chromatographic Elution.
Appendix 3.2 Transformation of the Plate Theory Elution Equation from Poisson to Gaussian Form.
Appendix 3.3 A Brief Introduction to Snyder's Theory of Gradient Elution.
List of Symbols Used in Chapter 3.
4 Tools of the Trade III. Separation Practicalities.
4.1 Introduction.
4.2 The Analyte and the Matrix.
4.3 Extraction and Clean-Up: Sample Preparation Methods.
4.4 Chromatographic Practicalities.
4.5 Summary of Key Concepts.
Appendix 4.1 Responses of Chromatographic Detectors: Concentration vs MassFlux Dependence.
5 Tools of the Trade IV. Interfaces and Ion Sources for ChromatographyMass Spectrometry.
5.1 Introduction.
5.2 Ion Sources that can Require a Discrete Interface Between Chromatograph and Source.
5.3 Ion Sources not Requiring a Discrete Interface.
5.4 SourceAnalyzer Interfaces Based on Ion Mobility.
5.5 Summary of Key Concepts.
5.1 Appendix 5.1: Methods of Sample Preparation for Analysis by MALDI.
6 Tools of the Trade V. Mass Analyzers for Quantitation: Separation of Ions by m/**z Values…