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High-Throughput Analysis for Food Safety. Edition No. 1. Chemical Analysis: A Series of Monographs on Analytical Chemistry and Its Applications

  • Book

  • 298 Pages
  • October 2014
  • John Wiley and Sons Ltd
  • ID: 2935915
HIGH THROUGHPUT ANALYSIS FOR FOOD SAFETY

MEETS FSMA REQUIREMENTS WITH THE LATEST ADVANCES IN HIGH-THROUGHPUT SCREENING

High-Throughput Analysis for Food Safety addresses the fundamental concepts involved in the rapid screening for contaminants, including residual veterinary drugs, proteins, metals, hormones, pesticides, and adulterants. Addressing the need for - and requirements of - rapid screening tests, the book includes discussions of regulations and compliance issues from perspectives of both domestic and global industry and government contributors. The latest developments and most common techniques are focused on, with an emphasis on the applicability of both stand-alone mass spectrometry methods and coupled techniques. Beginning with a review of high-throughput analysis basics, the authors conduct a full exploration of mass spectrometry applications allowing readers to: - Survey GC-MS, LC-MS, stand-alone MS, and tandem MS methods in foodanalysis and contaminant screening - Review quality control standards, method validation, and ongoing analyticalcontrol - Examine the current methods used to detect veterinary medicinal productresidues in food, as well as future directionsRecent

Recent incidents around the globe have turned the food industry toward high-throughput analysis, and the Food Safety Modernization Act has made it a legal requirement in the US. This resource provides an in-depth discussion of the latest advances in methods and instrumentation.

Table of Contents

PREFACE xi

CONTRIBUTORS xiii

CHAPTER 1 INTRODUCTION: BASIC PRINCIPLES OF ASSAYS TO BE COVERED, SAMPLE HANDLING, AND SAMPLE PROCESSING 1
Wanlong Zhou, Eugene Y. Chang, and Perry G. Wang

1.1 Introduction 1

1.1.1 Current Situation and Challenges of Food Safety and Regulations 1

1.1.2 Residues and Matrices of Food Analysis and High-Throughput Analysis 2

1.1.3 Food Safety Classifications 3

1.1.4 “High Throughput” Definition 3

1.1.5 Scope of the Book 4

1.2 Advanced Sample Preparation Techniques 5

1.2.1 Automation of Weighing and Preparing Standard Solutions 5

1.2.2 QuEChERS 6

1.2.3 Swedish Extraction Technique (SweEt) and Other Fast Sample Preparation Methods 6

1.2.4 Turbulent Flow Chromatography 7

1.2.5 Pressurized Liquid Extraction 7

1.2.6 Automated 96- and 384-Well Formatted Sample Preparation as well as Automated SPE Workstations 8

1.2.7 Solid-Phase Microextraction 8

1.2.8 Microextraction by Packed Sorbent 9

1.2.9 Liquid Extraction Surface Analysis 9

1.2.10 Headspace GC 10

1.2.11 Summary 10

1.3 Future Perspectives 10

Acknowledgment 11

References 11

CHAPTER 2 SURVEY OF MASS SPECTROMETRY-BASED HIGH-THROUGHPUT METHODS IN FOOD ANALYSIS 15
Lukas Vaclavik, Tomas Cajka, Wanlong Zhou, and Perry G. Wang

2.1 Introduction 15

2.2 Techniques Employing Chromatographic Separation 15

2.2.1 Gas Chromatography–Mass Spectrometry 15

2.2.2 Liquid Chromatography–Mass Spectrometry 21

2.3 Direct Techniques 30

2.3.1 Matrix-Assisted Laser Desorption/Ionization-Mass Spectrometry 30

2.3.2 Headspace (Solid-Phase Microextraction)-Mass Spectrometry E-Nose 37

2.3.3 Ambient Desorption/Ionization-Mass Spectrometry 38

2.4 Concluding Remarks 62

Acknowledgments 62

References 63

CHAPTER 3 QUALITY SYSTEMS, QUALITY CONTROL GUIDELINES AND STANDARDS, METHOD

VALIDATION, AND ONGOING ANALYTICAL QUALITY CONTROL 73
David Galsworthy and Stewart Reynolds

3.1 Introduction 73

3.1.1 Quality System Design 73

3.1.2 Procedures 74

3.1.3 Roles and Responsibilities 74

3.1.4 Quality Manual 74

3.1.5 Document Control 74

3.1.6 Control of Records 75

3.1.7 Audits 75

3.1.8 Validation of Methodology 75

3.1.9 Staff Competency 75

3.1.10 Internal Quality Control 76

3.1.11 Method Performance Criteria 76

3.2 Qualitative Screening Methods 76

3.2.1 Selectivity of Mass Spectrometry-Based Methods 78

3.2.2 Confirmatory Methods 78

3.2.3 Validation of Qualitative Screening Multiresidue Methods for Pesticide Residues in Foods 79

3.3 Elements of the Analytical Workflow 80

3.3.1 Sample Preparation 80

3.3.2 Effects of Sample Processing 81

3.3.3 Extraction Efficiency 81

3.4 Initial Method Validation 81

3.5 Ongoing Analytical Quality Control 86

3.5.1 Internal Quality Control 86

3.5.2 Proficiency Testing 86

3.6 Validation of Qualitative Screening Multiresidue Methods for Veterinary Drug Residues in Foods 87

3.6.1 EU Legislation Covering Method Validation for Veterinary Drug Screening 87

3.6.2 Determination of Specificity/Selectivity and Detection Capability (CCβ) Using the Classical Approach 88

3.6.3 Establishment of a Cutoff Level and Calculation of CCβ 88

3.6.4 Determination of the Applicability 89

3.7 Conclusions 90

References 90

CHAPTER 4 DELIBERATE CHEMICAL CONTAMINATION AND PROCESSING CONTAMINATION 93
Stephen Lock

4.1 Introduction 93

4.2 Heat-Induced Food Processing Contaminants 97

4.3 Packaging Migrants 101

4.4 Malicious Contamination of Food 105

References 111

CHAPTER 5 MULTIRESIDUAL DETERMINATION OF 295 PESTICIDES AND CHEMICAL POLLUTANTS IN ANIMAL FAT BY GEL PERMEATION CHROMATOGRAPHY (GPC) CLEANUP COUPLED WITH GC–MS/MS, GC–NCI-MS, AND LC–MS/MS 117
Yan-Zhong Cao, Yong-Ming Liu, Na Wang, Xin-Xin Ji, Cui-Cui Yao, Xiang Li, Li-Li Shi, Qiao-Ying Chang, Chun-Lin Fan, and Guo-Fang Pang

5.1 Introduction 117

5.1.1 Persistent Organic Pollutants 118

5.1.2 Polycyclic Aromatic Hydrocarbons 119

5.1.3 Polychlorinated Biphenyls 119

5.1.4 Phthalate Esters 120

5.1.5 Multiclass and Multiresidue Analyses 120

5.2 Experiment 122

5.2.1 Instruments 122

5.2.2 Reagents 122

5.2.3 Preparation of Standard Solutions 122

5.2.4 Sample Preparation 123

5.2.5 Analytical Methods 124

5.2.6 Qualitative and Quantitative Determination 136

5.3 Results and Discussion 136

5.3.1 Selection of GPC Cleanup Conditions 136

5.3.2 Selection of Extraction Solvent 138

5.3.3 Comparison of Sample Extraction Methods 150

5.3.4 Comparison of Sample Cleanup 151

5.3.5 Linear Range, LOD, and LOQ 152

5.3.6 Recoveries and Precisions 152

5.3.7 Actual Sample Analysis 157

5.4 Conclusions 161

References 162

CHAPTER 6 ULTRAHIGH-PERFORMANCE LIQUID CHROMATOGRAPHY COUPLED WITH HIGH-RESOLUTION MASS SPECTROMETRY: A RELIABLE TOOL FOR ANALYSIS OF VETERINARY DRUGS IN FOOD 167
María del Mar Aguilera-Luiz, Roberto Romero-González, Patricia Plaza-Bolaños, José Luis Martínez Vidal,
and Antonia Garrido Frenich

6.1 Introduction 167

6.2 Veterinary Drug Legislation 168

6.3 Analytical Techniques for VD Residue Analysis 172

6.3.1 Chromatographic Separation 174

6.3.2 High-Resolution Mass Spectrometers 175

6.4 Food Control Applications 181

6.4.1 Screening Applications 181

6.4.2 Confirmation and Quantification Methods 191

6.4.3 Comparison Studies 195

6.5 Conclusions and Future Trends 201

Acknowledgments 202

References 203

CHAPTER 7 A ROLE FOR HIGH-RESOLUTION MASS SPECTROMETRY IN THE HIGH-THROUGHPUT ANALYSIS AND IDENTIFICATION OF VETERINARY MEDICINAL PRODUCT RESIDUES AND OF THEIR METABOLITES IN FOODS OF ANIMAL ORIGIN 213
Eric Verdon, Dominique Hurtaud-Pessel, and Jagadeshwar-Reddy Thota

7.1 Introduction 213

7.2 Issues Associated with Veterinary Drug Residues and European Regulations 215

7.3 Choosing a Strategy: Targeted or Nontargeted Analysis? 216

7.3.1 Targeted Analysis Using HRMS 218

7.3.2 Nontargeted Analysis Using HRMS: Screening for Unknown Compounds 219

7.4 Application Number 1: Identification of Brilliant Green and its Metabolites in Fish under High-Resolution Mass Spectral Conditions (Targeted and Nontargeted Approaches) 220

7.5 Application Number 2: Targeted and Nontargeted Screening Approaches for the Identification of Antimicrobial
Residues in Meat 223

7.6 Conclusions 227

References 227

CHAPTER 8 HIGH-THROUGHPUT ANALYSIS OF MYCOTOXINS 231
Marta Vaclavikova, Lukas Vaclavik, and Tomas Cajka

8.1 Introduction 231

8.1.1 Legislation and Regulatory Limits 231

8.1.2 Emerging Mycotoxins 237

8.1.3 Analysis of Mycotoxins in the High-Throughput Environment 238

8.2 Sample Preparation 239

8.2.1 Sampling 240

8.2.2 Matrices of Interest 240

8.2.3 Extraction of Mycotoxins 241

8.2.4 Purification of Sample Extracts 246

8.3 Separation and Detection of Mycotoxins 247

8.3.1 Liquid Chromatography–Mass Spectrometry-Based Methods 248

8.3.2 High-Resolution Mass Spectrometry in Mycotoxins Analysis 250

8.4 No-Separation Mass Spectrometry-Based Methods 252

8.4.1 Matrix-Assisted Laser Desorption Ionization–Mass Spectrometry 252

8.4.2 Ambient Ionization Mass Spectrometry 253

8.4.3 Ion Mobility Spectrometry 254

8.4.4 Immunochemical Methods 256

8.5 Conclusions 259

Acknowledgments 259

References 259

INDEX 267

Authors

Perry G. Wang Mark F. Vitha Drake University, Des Moines, IA, USA. Jack F. Kay