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Articles

Simultaneous determination of the four key fluoroquinolones and two antipsychotics in fish and shrimp by LC-MS/MS

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Pages 678-686 | Received 04 Nov 2021, Accepted 11 Jan 2022, Published online: 18 Mar 2022

References

  • Al-Khazrajy O, Boxall A. 2017. Determination of pharmaceuticals in freshwater sediments using ultrasonic-assisted extraction with SPE clean-up and HPLC-DAD or LC-ESI-MS/MS detection. Anal Methods. 9(28):4190–4200.
  • Araujo F, Bauerfeldt GF, Marques M, Martins E. 2019. Development and validation of an analytical method for the detection and quantification of bromazepam, clonazepam and diazepam by UPLC-MS/MS in surface water. Bull Environ Contam Toxicol. 103(2):362–366.
  • Bagheri N, Lawati H, Sharji N, Hassanzadeh J. 2021. Magnetic zinc based 2D-metal organic framework as an efficient adsorbent for simultaneous determination of fluoroquinolones using 3D printed microchip and liquid chromatography tandem mass spectrometry. Talanta. 224:121796.
  • Bairros AD, Almeida RD, Pantaleão L, Barcellos T, Silva S, Yonamine M. 2015. Determination of low levels of benzodiazepines and their metabolites in urine by hollow-fiber liquid-phase microextraction (LPME) and gas chromatography-mass spectrometry (GC-MS). J Chromatogr B Analyt Technol Biomed Life Sci. 975:24–33.
  • Banaszkiewicz L, Woźniak MK, Kata M, Domagalska E, Wiergowski M, Szpiech B, Kot-Wasik A. 2020. Rapid and simple multi-analyte LC-MS/MS method for the determination of benzodiazepines and Z-hypnotic drugs in blood samples: development, validation and application based on three years of toxicological analyses. J Pharm Biomed Anal. 191:113569.
  • Cañada-Cañada F, Arancibia JA, Escandar GM, Ibañez GA, Mansilla AE, Peña A, Olivieri AC. 2009. Second-order multivariate calibration procedures applied to high-performance liquid chromatography coupled to fast-scanning fluorescence detection for the determination of fluoroquinolones. J Chromatogr A. 1216(24):4868–4876.
  • Cheng L, Zhang Y, Shen J, Wu C, Zhang S. 2010. GC–MS method for simultaneous determination of four sedative hypnotic residues in swine tissues. Chroma. 71(1–2):155–158.
  • Choi SY, Kang HS. 2021. Multi-residue determination of sulfonamides, dapsone, ormethoprim, and trimethoprim in fish and shrimp using dispersive solid phase extraction with LC–MS/MS. Food Anal Methods. 14(6):1256–1268.
  • Dinh QT, Munoz G, Duy SV, Do DT, Bayen S, Sauvé S. 2020. Analysis of sulfonamides, fluoroquinolones, tetracyclines, triphenylmethane dyes and other veterinary drug residues in cultured and wild seafood sold in Montreal, Canada. J Food Compos Anal. 94:103630.
  • European Commission. 2019. Guidance document on analytical quality control and method validation procedures for pesticides residues and analysis in food and feed. Document No. SANTE/12682/2019. European Commission Directorate-General for Health and Food Safety. https://www.eurlpesticides.eu/userfiles/file/EurlALL/AqcGuidance_SANTE_2019_12682.pdf.
  • Famiglini G, Capriotti F, Palma P, Termopoli V, Cappiello A. 2015. The rapid measurement of benzodiazepines in a milk-based alcoholic beverage using QuEChERS extraction and GC-MS analysis. J Anal Toxicol. 39(4):306–312.
  • Food and Argriculture Organization of the United Nations (FAO). 2012. The state of world fisheries and aquaculture 2012. Rome: FAO.
  • Feás X, Vázquez B, Iglesias A, Cantalapiedra J, Fente CA, Cepeda A. 2010. Sensitive determination of decoquinate in milk by high-performance liquid chromatographic coupled to laser-induced fluorescence detection. Food Anal Methods. 3(3):138–143.
  • Fernández P, Lafuente N, Bermejo AM, López-Rivadulla M, Cruz A. 1996. HPLC determination of cocaine and benzoylecgonine in plasma and urine from drug abusers. J Anal Toxicol. 20(4):224–228.
  • Gallardo C, Waisbaum R, Nudelman N. 2005. Kinetic and mechanistic studies on the hydrolysis and photodegradation of diazepam and alprazolam. J Phys Org Chem. 18(2):156–161.
  • Griboff J, Carrizo JC, Bonansea RI, Valdés M, Wunderlin DA, Amé M. 2020. Multiantibiotic residues in commercial fish from Argentina. The presence of mixtures of antibiotics in edible fish, a challenge to health risk assessment. Food Chem. 332:127380.
  • Han D, Shan X, Zhang W, Chen Y, Wang Q, Li Z, Zhang G, Xu P, Li J, Xie S, et al. 2018. A revisit to fishmeal usage and associated consequences in Chinese aquaculture. Rev Aquacult. 10(2):493–415.
  • Ke H, Blaney L. 2015. Systematic optimization of an SPE with HPLC-FLD method for fluoroquinolone detection in wastewater. J Hazard Mater. 282:96–105.
  • Liu M, Guo L, Yin Y, Chen L, Chen Z, Liu J, Qiu B. 2020. Au nanoparticle preconcentration coupled with CE-electrochemiluminescence detection for sensitive analysis of fluoroquinolones in European eel (Anguilla anguilla). Anal Methods. 12(21):2693–2702.
  • Ma A, Liu M, Zhai Y. 2020. The cleavage regularity of ten fluoroquinolones by electrospray ionization mass spectrometry. Chin J Health Lab Tec. 30(07):50–54.
  • Marilena ED, Thomaidis NS. 2019. Multi-residue methodology for the determination of 16 coccidiostats in animal tissues and eggs by hydrophilic interaction liquid chromatography – tandem mass spectrometry. Food Chem. 275:668–680.
  • Moudgil P, Bedi JS, Aulakh RS, Gill J, Kumar A. 2019. Validation of HPLC multi-residue method for determination of fluoroquinolones, tetracycline, sulphonamides and chloramphenicol residues in bovine milk. Food Anal Methods. 12(2):338–346.
  • Rusu A, Hancu G, Uivaroşi V. 2015. Fluoroquinolone pollution of food, water and soil, and bacterial resistance. Environ Chem Lett. 13(1):21–36.
  • Stubbings G, Tarbin J, Cooper A, Sharman M, Bigwood T, Robb P. 2005. A multi-residue cation-exchange clean up procedure for basic drugs in produce of animal origin. Anal Chim Acta. 547(2):262–268.
  • Szabolcs S, Lavins ES, Kaspar CK, Michel HM, Mitchell-Mata CL, Huestis MA, Apollonio LG. 2020. Development and validation of an LC–MS-MS method for the detection of 40 benzodiazepines and three Z-drugs in blood and urine by solid-phase extraction. J Anal Toxicol. 44(7):708–710.
  • Vázquez M, Vázquez P, Galera MM, García G. 2012. Determination of eight fluoroquinolones in groundwater samples with ultrasound-assisted ionic liquid dispersive liquid-liquid microextraction prior to high-performance liquid chromatography and fluorescence detection . Anal Chim Acta. 748:20–27.
  • Wang H, Zhao X, Xu J, Shang Y, Wang H, Wang P, He X, Tan J. 2021. Determination of quinolones in environmental water and fish by magnetic metal organic frameworks based magnetic solid-phase extraction followed by high-performance liquid chromatography-tandem mass spectrometry. J Chromatogr A. 1651:462286.
  • Wu H, Liu Y, Chang J, Zhao B, Huo Y, Wang Z, Shi Y. 2019. Extraction of five fluoroquinolones in eggs by magnetic solid-phase extraction with Fe3O4–MoS2 and determination by HPLC-UV. Food Anal Methods. 12(3):712–721.
  • Yu K, Yue M, Xu J, Jiang T. 2020. Determination of fluoroquinolones in milk, honey and water samples by salting out-assisted dispersive liquid-liquid microextraction based on deep eutectic solvent combined with MECC. Food Chem. 332:127371.
  • Zayed MA, Fahmey MA, Hawash MF. 2005. Investigation of diazepam drug using thermal analyses, mass spectrometry and semi-empirical MO calculation. Spectrochim Acta A Mol Biomol Spectrosc. 61(5):799–805.
  • Zhang L, Wu P, Zhang Y, Quan J, Yang D, Wang L, Jing Z. 2014. A GC/MS method for the simultaneous determination and quantification of chlorpromazine and diazepam in pork samples. Anal Methods. 6(2):503–508.
  • Zhang L, Zhang S, Wan Y. 2003. Voltammetric behavior of methaqualone and its determination by single-sweep oscillopolarography. Talanta. 59(5):1009–1013.
  • Zhang Q, Wang X, Wang X, Guo H, Chen G, Shan Y, Fang W. 2021. Development of a pass-through SPE cartridge for the rapid determination of fipronil and its metabolites in chicken eggs by LC-MS/MS. Food Anal Methods. 14(5):922–932.
  • Zhang R, Kang Y, Zhang R, Han M, Zeng W, Wang Y, Yu K, Yang Y. 2021. Occurrence, source, and the fate of antibiotics in mariculture ponds near the Maowei Sea, South China: Storm caused the increase of antibiotics usage. Sci Total Environ. 752:141882.

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