Везде

RAS Chemistry & Material ScienceЖурнал аналитической химии Journal of Analytical Chemistry

  • ISSN (Print) 0044-4502
  • ISSN (Online) 3034-512X

DETERMINATION OF PESTICIDE RESIDUES IN WHEAT GRAIN BY THE GC-MS/MS METHOD AFTER THEIR ISOLATION USING THE MODIFIED QUECHERS METHOD AND HYPER CROSS-LINKED POLYSTYRENE AT THE PURIFICATION STAGE

You can
PII
S0044450225060074-1
DOI
10.31857/S0044450225060074
Publication type
Article
Status
Published
Authors
D. P. Bulkatov
  • Affiliation:
    Federal Center for Animal Health
    D.I. Mendeleev Russian University of Chemical Technology
Volume/ Edition
Volume 80 / Issue number 6
Pages
604-615
Abstract
Hyper cross-linked polystyrene was proposed for purification of extracts after sample preparation by QuEChERS method using multicomponent dispersive solid-phase extraction for determination of 19 pesticide residues in wheat grain by gas chromatography with tandem mass spectrometric detection. Sample preparation included extraction with water and acetonitrile and further purification of the extracts using hyper cross-linked polystyrene. The method provided quantitative separation of pesticides (degrees of separation ranged from 66 to 100 %). Pesticides were identified by selected transitions in multiple reaction monitoring mode. Determination was carried out by matrix graduation method and the limits of detection and determination were 0.03-0.3 and 0.1-1.0 µg/kg, respectively. The analysis of contaminated wheat samples showed that the results satisfactorily coincide with the data obtained by the classical QuEChERS method for determination of pesticide residues in agricultural products.
Keywords
пшеница пестициды сверхсшитый полистирол QuEChERS ГХ-МС/МС
Date of publication
04.03.2025
Year of publication
2025
Number of purchasers
0
Views
14

References

  1. 1. Anastassiades M., Lehotay S., Stajnbaher D., Schenck F. Fast and easy multiresidue method employing acetonitrile extraction/partitioning and "dispersive solid-phase extraction" for the determination of pesticide residues in produce // J. AOAC Int. 2003. V. 86. P. 412.
  2. 2. Lehotay S.J., Anastassiades M., Majors R.E. The QuEChERS revolution // LCGC Europe. 2010. V. 23. P. 418.
  3. 3. Zhang C., Deng Y., Zheng J., Zhang Y., Yang L., Liao C., Su L., Zhou Y., Gong D., Chen L., Luo A. The application of the QuEChERS methodology in the determination of antibiotics in food: A review // Trends Anal. Chem. 2019. V. 118. P. 517.
  4. 4. Bruzzoniti M.C., Checchini L., De Carlo R.M., Orlandini S., Rivoira L., Del Bubba M. QuEChERS sample preparation for the determination of pesticides and other organic residues in environmental matrices: A critical review // Anal. Bioanal. Chem. 2014. V. 406. P. 4089.
  5. 5. Rejczak T., Tuzimski T. A review of recent developments and trends in the QuEChERS sample preparation approach // Open Chem. 2015. V. 13. P. 980.
  6. 6. Perestrelo R., Silva P., Porto-Figueira P., Pereira J.A.M., Silva C., Medina S., Câmara J.S. QuEC-hERS - Fundamentals, relevant improvements, applications and future trend // Anal. Chim. Acta. 2019. V. 1070. P. 1.
  7. 7. Gonzalez-Curbelo M.A., Herrera-Herrera A.V., Ravelo-Perez L.V., Hernandes-Borges J. Sample-preparation methods for pesticide-residue analysis in cereals and derivatives // Trends Anal. Chem. 2012. V. 38. P. 32.
  8. 8. Koesuwiwat U., Lehotay S.J., Mastovska K., Dorweiler K.J., Leepipatpinoon N. Extension of the QuECh-ERS method for pesticide residues in cereals to flaxseeds, peanuts, and doughs // J. Agric. Food. Chem. 2010. V. 58. P. 5950.
  9. 9. Mastovska K., Dorweiler K.J., Lehotay S.J., Wegscheid J.S., Szpylka K.A. Pesticide multiresidue analysis in cereal grains using modified QuEChERS method combined with automated direct sample introduction GC-TOFMS and UPLC-MS/MS // J. Agric. Food. Chem. 2010. V. 58. № 10. P. 5959.
  10. 10. Kolberg D.I., Prestes O.D., Adaime M.B., Zanella R. Development of a fast multiresidue method for the determination of pesticides in dry samples (wheat grains, flour and bran) using QuEChERS based method and GC-MS // Food Chem. 2011. V. 125. № 4. P. 1436.
  11. 11. Herrmann S.S., Poulsen M.E. Clean-up of cereal extracts for gas chromatography-tandem quadrupole mass spectrometry pesticide residues analysis using primary secondary amine and C18 // J. Chromatogr. A. 2015. V. 1423. P. 47.
  12. 12. He Z., Wang L., Peng Y., Luo M., Wang W., Liu X. Multiresidue analysis of over 200 pesticides in cereals using a QuEChERS and gas chromatography-tandem mass spectrometry-based method // Food Chem. 2015. V. 169. P. 372.
  13. 13. Ракитский В.Н., Федорова Н.Е., Егорченкова О.Е., Гречина М.С., Суслова А.В. Безопасность сельскохозяйственной продукции: многокомпонентное определение остаточных количеств пестицидов в зерне // Гигиена и санитария. 2020. Т. 99. С. 968.
  14. 14. Hakme E., Hajeb P., Herrmann S.S., Poulsen M.E. Processing factors of pesticide residues in cereal grain fractions // Food Control Volume. 2024. P. 161.
  15. 15. Wilkowska A., Biziuk M. Determination of pesticide residues in food matrices using the QuEChERS methodology // Food Chem. 2011. V. 125. P. 803.
  16. 16. González Curbelo M.Á., Socas-Rodríguez B., Herrera-Herrera A., González-Sálamo J., Hernán-dez-Borges J., Rodríguez-Delgado M.Á. Evolution and applications of the QuEChERS method // Trends Anal. Chem. 2015. V. 71. P. 169.
  17. 17. Kim L., Lee D., Cho H.-K., Choi S.-D. Review of the QuEChERS method for the analysis of organic pollutants: Persistent organic pollutants, polycyclic aromatic hydrocarbons, and pharmaceuticals // Trends Environ. Anal. Chem. 2019. V. 22. Article e00063.
  18. 18. Zhou Q., Yu C., Meng L., Ji W., Liu S., Pan C., Lan T., Wang L., Qu B. Research progress of applications for nano-materials in improved QuEChERS method // Crit. Rev. Food Sci. Nutr. 2024. V. 64. № 28. P. 10517.
  19. 19. Lawal A., Wong R.C.S., Tan G.H., Abdulra’uf L.B., Alsharif, A.M.A. Recent modifications and validation of QuEChERS-dSPE coupled to LC-MS and GC-MS instruments for determination of pesticide/agro-chemical residues in fruits and vegetables: Review. // J. Chromatogr. Sci. 2018. V. 56. P. 656.
  20. 20. Дмитриенко С.Г., Апяри В.В., Толмачева В.В., Горбунова М.В., Фурлетов А.А., Цизин Г.И., Золотов Ю.А. Методы выделения органических соединений из твердых образцов. 2. Экстракция в суб- и сверхкритических условиях. Матричная твердофазная дисперсия. Метод QUECHERS. Обзор обзоров // Журн. аналит. химии. 2024. Т. 79. № 9. С. 935. @@ Dmitrienko S.G., Apyari V.V., Tolmacheva V.V., Gorbunova M.V., Furletov A.A., Tsizin G.I., Zolotov Yu A. Methods for extraction of organic compounds from solid samples: 2. Sub- and supercritical extraction. Matrix solid-phase dispersion. QuEChERS method. Review of reviews // J. Anal. Chem. 2024. V. 79 № 9. P. 1167.
  21. 21. Дмитриенко С.Г., Тихомирова Т.И., Апяри В.В., Толмачева В.В., Кочук Е.В., Золотов Ю.А. Применение сверхсшитых полистиролов для концентрирования и разделения органических соединений и ионов элементов // Журн. аналит. химии. 2018. Т. 73. № 11. С. 830. @@ Dmitrienko S.G., Tikhomirova T.I., Apyari V.V., Tolmacheva V.V., Kochuk E.V., Zolotov. Yu.A. Application of hypercrosslinked polystyrenes to the preconcentration and separation of organic compounds and ions of elements: A review // J. Anal. Chem. 2018. V. 73. № 11. P. 1053.
  22. 22. Мелехин А.О., Толмачева В.В., Шубина Е.Г., Дмитриенко С.Г., Апяри В.В., Грудев А.И. Применение сверхсшитого полистирола для многокомпонентной твердофазной экстракции остатков ветеринарных препаратов при их определении в курином мясе методом высокоэффективной жидкостной хроматографии-тандемной масс-спектрометрии // Журн. аналит. химии. 2021. Т. 76. № 8. С. 708. @@ Melekhin A.O., Tolmacheva V.V., Shubina E.G., Dmitrienko S.G., Apyari V.V., Grudev A.I. Using hypercrosslinked polystyrene for the multicomponent solid-phase extraction of residues of 63 veterinary preparations in their determination in chicken meat by high-performance liquid chromatography-tandem mass spectrometry // J. Anal. Chem. 2021. V. 76. № 8. P. 946.
  23. 23. Мелехин А.О., Толмачева В.В., Шубина Е.Г., Дмитриенко С.Г., Апяри В.В., Грудев А.И., Золотов Ю.А. Новый дериватизирующий агент для определения метаболитов нитрофуранов в яйцах методом ВЭЖХ-МС/МС // Журн. аналит. химии. 2021. Т. 76. № 11. С. 1012. @@ Melekhin A.O., Tolmacheva V.V., Shubina E.G., Dmitrienko S.G., Apyari V.V., Grudev A.I., Zolotov Yu.A. A new derivatizing agent for determining nitrofuran metabolites in chicken eggs by high-perfor mance liquid chromatography-tandem mass spec trometry // J. Anal. Chem. 2021. V. 76. № 11. P. 1312.
  24. 24. Bulkatov D.P., Melekhin A.O., Parfenov M.Yu., Tishchenko V.V., Apyari V.V., Tolmacheva V.V White analytical chemistry-driven approach to the sample preparation and LC-MS/MS determination of non-steroidal anti-inflammatory drugs and their metabolites in real contaminated matrices // Sep. Sci. Plus. 2025. V. 8. P. Article e70002.
  25. 25. Rogozhin S.V., Korshak V.V., Davankov V.A., Maslova L.A. Halogenomethylation of styrene and divinylbenzene copolymers // Polym. Sci. USSR. 1966 V. 8. № 7. P. 1402.
  26. 26. Eurachem/CITAC Guide “Assessment of Performance and Uncertainty in Qualitative Chemical Analysis”-A Medical Laboratory Perspective 2022. Standards 2(2). P 194. https://doi.org/10.3390/standards2020014
QR
Translate

Индексирование

Scopus

Scopus

Scopus

Crossref

Scopus

Higher Attestation Commission

At the Ministry of Education and Science of the Russian Federation

Scopus

Scientific Electronic Library