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Fungicides by CE–MS 309 13. Tsai, C. Y., Chen, Y. R., and Her, G. R. (1998) Analysis of triazines by reversed electroosmotic flow capillary electrophoresis–electrospray mass spectrometry. J. Chromatogr. A 813, 379–386. 14. Lazar, I. M. and Lee, M. L. (1999) Capillary electrophoresis time-of-flight mass spectrometry of paraquat and diquat herbicides. J. Microcolumn Sep. 11, 117–123. 15. Menzinger, F., Schmitt-Kopplin, P., Frommberger, M., Freigtag, D., and Kettrup, A. (2001) Partial-filling micellar electrokinetic chromatography and non-aqueous capillary electrophores for the analysis of selected agochemicals. J. Chromatogr. A 371, 25–34. 16. Hau, J. and Roberts, M. (1999) Advantages of pressurization in capillary electrophoresis/ electrospray ionization mass spectrometry. Anal. Chem. 71, 3977–3984. 17. Goodwin, L., Startin, J. R., Keely, B. J., and Goodall, D. M. (2003) Analysis of glyphosate and glufosinate by capillary electrophoresis–mass spectrometry utilising a sheetless microelectrospray interface. J. Chromatogr. A 1004, 107–119. 18. Núñez, O., Moyano, E., and Galceran, M. T. (2002) Capillary electrophoresis–mass spectrometry for the analysis of quaternary ammonium herbicides. J. Chromatogr. A 974, 243–255. 19. Niessen, W. M. A., Tjaden, U. R., and van der Greef, J. (1993) Capillary electrophoresismass spectrometry. J. Chromatogr. A 636, 3–19. 20. Nielen, M. W. F. (1995) Industrial applications of capillary zone electrophoresis-mass spectrometry. J. Chromatogr. A 712, 269–284. 21. Tanaka, Y., Otsuka, K., and Terabe, S. (2003) Evaluation of an atmospheric pressure chemical ionization interface for capillary electrophoresis–mass spectrometry. J. Pharm. Biomed. Anal. 30, 1889–1895. 22. Schmitt-Kopplin, P. and Frommberger, M. (2003) Capillary electrophoresis–mass spectrometry. Fifteen years of developments and applications. Electrophoresis 24, 3837–3867. 23. Da Silva, C. L., de Lima, E. C., and Tavares, M. F. M. (2003) Investigation of preconcentration strategies for the trace analysis of multi-residue pesticides in real samples by capillary electrophoresis. J. Chromatogr. A 1014, 109–116. 24. Rodríguez, R., Mañes, J., and Picó, Y. (2003) Off-line solid-phase microextraction and capillary mass spectrometry to determine acidic pesticides in fruits. Anal. Chem. 75, 452–459. 25. Rodríguez, R., Picó, Y., Font, G., and Mañes, J. (2002) Analysis of thiabendazole and procymidone in fruits and vegetables by capillary-electrophoresis-electrospray mass spectrometry. J. Chromatogr. A 949, 359–366. 26. Rodríguez, R., Picó, Y., Font, G., and Mañes, J. (2001) Analysis of post-harvest fungicides by micellar electrokinetic chromatography. J. Chromatogr. A 924, 387–396. 27. Smith, R. D., Barinaga, C. J., and Udseth, H. R. (1998) Improved electrospray ionization for capillary zone electrophoresis–mass spectrometry. Anal. Chem. 60, 1948–1952.
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TM METHODS IN BIOTECHNOLOGY � 19
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M E T H O D S I N B I O T E C H N O
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© 2006 Humana Press Inc. 999 River
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vi Preface candidates for a relevan
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viii Contents 9 Analysis of Pentach
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x Contents 30 On-Line Admicelle-Bas
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xii Contributors JANE C. CHUANG •
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xiv Contributors JOHN PATSIAS • A
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4 Martínez Vidal et al. excellent
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6 Martínez Vidal et al. Table 1 MS
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8 Martínez Vidal et al. 7. Check t
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F2 10 Martínez Vidal et al. where
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12 Martínez Vidal et al. 11. Inter
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14 Martínez Vidal et al. 11. Kohlm
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Pyrethroids in Blood Plasma and Uri
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19 Fig. 1. Metabolism of the pyreth
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36 Barr et al. Because the metaboli
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38 Table 1 Pesticides Included in t
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40 Barr et al. 4. Spike the first p
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42 Table 3 High-Resolution Mass Spe
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44 Table 3 High-Resolution Mass Spe
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46 Barr et al. 4. Griffin, P., Maso
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OCPs in Human Fluids by SPDE and GC
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62 Barr et al. exposures (2). For c
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64 Table 1 The Target Analytes, Abb
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66 Fig. 1. Structures of target ana
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68 Barr et al. Table 3 Pesticides a
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70 Barr et al. 3.2.3.2. NATIVE STAN
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72 Barr et al. 8. Inject each sampl
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74 Barr et al. Table 5 Optimized Pr
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76 Barr et al. 3.7.4. Intra- and In
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78 Barr et al. 11. Hill, R. H., Jr.
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80 Fustinoni et al. Fig. 1. Molecul
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82 Fustinoni et al. Develop the che
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84 Fustinoni et al. the ETU and ETU
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86 Fustinoni et al. 3.3. Biological
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88 Fustinoni et al. of pesticides s
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2,4-D and MCPA in Human Urine 91 7
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2,4-D and MCPA in Human Urine 93 4.
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2,4-D and MCPA in Human Urine 95 Ta
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2,4-D and MCPA in Human Urine 101 F
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2,4-D and MCPA in Human Urine 103 6
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106 Jardim, Pozzebon, and Queiroz S
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108 Jardim, Pozzebon, and Queiroz 3
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110 Jardim, Pozzebon, and Queiroz A
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112 Zhang been widely used to detec
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114 Zhang 3. Maintain the ion sourc
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116 Zhang Fig. 1. Mass ion chromato
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118 Zhang 15. Crespin, M. A., Galle
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120 Knopp The search for alternativ
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122 Knopp 4. Dissolve 40 mg BSA in
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124 Knopp Fig. 2. Scheme of tracer
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126 Knopp Fig. 3. Flow chart of the
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128 Knopp Fig. 4. Phenoxyalcanoic a
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130 Knopp 18. No or only minimal sa
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HTS-IS-ELISA for Biomonitoring Chlo
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150 van Hemmen, van der Jagt, and B
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166 Glass the collector and the mom
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168 Glass 3.2.1. Selection of Appli
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170 Glass Fig. 2. A field layout fo
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172 Glass questions that may arise
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174 Glass 3.5.3. Labeling of Media
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176 Glass Again, this can be relate
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Determination of Insecticides in In
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185 Fig. 3. Total ion current (TIC)
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187 Fig. 5. TIC chromatogram (y-axi
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Exposure to Malathion and Metabolit
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208 Araque et al. tive xenoestrogen
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210 Araque et al. 3. Methods The me
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212 Araque et al. values of 0.1 to
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214 Araque et al. estradiol and tra
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Internal Quality Criteria 219 17 Qu
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Internal Quality Criteria 221 instr
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223 Fig. 1. Basic components of the
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Internal Quality Criteria 225 Fig.
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Internal Quality Criteria 227 Resul
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Internal Quality Criteria 229 5. Th
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Pesticide Analysis by ELISA 231 18
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Pesticide Analysis by ELISA 233 4.
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QuEChERS Approach for Pesticides 23
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253 Table 2 Conditions for the GC-M
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Page 273 and 274: 264 Di Muccio et al. 1. Introductio
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Page 279 and 280: 270 Di Muccio et al. evaporator. In
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Page 295 and 296: 286 Barker shorten turnaround time,
Page 297 and 298: 288 Barker 9. The extract is placed
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Page 303 and 304: 294 Barker 8. Fernandez, M., Pico,
Page 305 and 306: 296 Barker 43. Pico, Y., Molto, J.
Page 307 and 308: 298 Picó ultraviolet absorbance, i
Page 309 and 310: 300 Picó 3. Attach the conditioned
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Page 313 and 314: 304 Picó Fig. 3. CE-MS/ESI electro
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Page 321 and 322: 312 Norman and Panton A number of s
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Page 325 and 326: 316 Norman and Panton ies, and samp
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Page 341 and 342: 332 Hong and Chu properties and are
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Page 349 and 350: 340 Hong and Chu 18. Wiberg, K., Le
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362 Fig. 6. HS-SPME-GC-MS mass chro
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364 Tsutsumi et al. 20. Li, H. P.,
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366 Kataoka, Mitani, and Takino inc
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368 Kataoka, Mitani, and Takino Fig
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370 Fig. 2. Schematic diagram of th
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372 Kataoka, Mitani, and Takino 3.2
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378 Table 1 Sensitivity, Linearity
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382 Kataoka, Mitani, and Takino 25.
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384 Hogendoorn and Dijkman dimensio
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386 Hogendoorn and Dijkman Fig. 2.
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392 Hogendoorn and Dijkman Table 1
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402 Hogendoorn and Dijkman 6. Pasco
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Analysis of Quaternary Ammonium Her
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422 Baggiani and Giovannoli Solid-p
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424 Baggiani and Giovannoli Fig. 1.
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426 Table 1 Recoveries on MISPE Col
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428 Baggiani and Giovannoli Fig. 4.
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430 Baggiani and Giovannoli 5. Buil
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432 Baggiani and Giovannoli 23. Dry
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Automated Trace Analysis of Pestici
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454 Ikonomou and Fernandez lion lim
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456 Ikonomou and Fernandez 3. For q
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458 Ikonomou and Fernandez Table 2
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460 Ikonomou and Fernandez Most eth
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462 Ikonomou and Fernandez calibrat
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464 Ikonomou and Fernandez Table 5
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466 Ikonomou and Fernandez 11. Moen
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468 Sabik and Jeannot describe thre
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470 Table 1 Specifications for the
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472 Sabik and Jeannot Table 2 Selec
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474 Fig. 3. LC/APCI plus MS/MS chro
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476 Sabik and Jeannot Table 4 Detec
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478 Sabik and Jeannot 16. MS detect
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Optical Immunosensors for Pesticide
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492 Index overview, 105, 106 sample
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494 Index principles, 119, 120 trit
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496 Index validation, biomonitoring
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498 Index Liquid chromatography-mas
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500 Index Organophosphorous (OP) pe
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502 Index materials, 286, 287, 291
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TM METHODS IN BIOTECHNOLOGY � 19
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