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Determination of fenbendazole and its metabolites in milk by the method of liquid chromatography coupled with tandem mass-spectrometry
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DETERMINATION OF FENBENDAZOLE AND ITS METABOLITES IN MILK BY THE METHOD OF LIQUID CHROMATOGRAPHY COUPLED WITH TANDEM MASS-SPECTROMETRY
Koshevarov N.
Abramov S.
Abramova E.
Misyura N.
Abramov V.
Varlamova A.
Kochetkov P.
Arkhipov I.
Authors:
Type:
Article
DOI:
https://doi.org/10.12737/23082
Pages:
from 554 to 562
Status:
Published
Received:
05.12.2016
Accepted:
25.01.2017
Published:
25.01.2017
Language:
Russian
Keywords:
milk, fenbendazole, metabolite, sulfoxide, sulfone, pharmacokinetics, liquid chromatography, mass-spectrometry.
Abstract and keywords
Abstract (English):
Objective of research: Development of methods for the determination of fenbendazole and its metabolites in milk by liquid chromatography coupled with tandem mass spectrometry. Materials and methods: Fenbendazole was administered orally to five cows. Samples of milk were taken on 1, 3, 5 and 10 days of drug application. The research method includes a description of reagents, plates and equipment; mass-spectrometric conditions for analysis of fenbendazole and its metabolites; preparation of the equipment to operation; preparation of eluent solution; preparation of the chromatograph to analysis; determination of chromatographic parameters of standard drug samples; preparation of milk samples to analysis; establishment of parameters of extracts’ chromatography; procedure of calibration of fenbendazole and its metabolites in eluent. Results and discussion: When studying the pharmacokinetics of fenbendazole and its metabolites (sulfone and sulfoxide) in milk, it was found that the maximal concentrations were determined 24 h after drug administration and were 22,6 ng/ml for fenbendazole sulfone, 34,0 ng/ml for fenbendazole sulfoxide and 19,7 ng/ml for fenbendazole. 10 days after treatment, the concentrations of fenbendazole and its metabolites in milk did not exceed permitted values.

Keywords:
milk, fenbendazole, metabolite, sulfoxide, sulfone, pharmacokinetics, liquid chromatography, mass-spectrometry.
Text

Введение

Вигисокс — комплексный антигельминтный препарат с содержанием 8% фенбендазола, 72% никлозамида и вспомогательных веществ. Фенбендазол, входящий в состав препарата, обладает выраженным нематодоцидным и в меньшей степени цестодоцидным и трематодоцидным действиями. Механизм действия его заключается в угнетении фумарат редуктазы, нарушении проницаемости клеточных мембран и нервно-мышечной иннервации, что приводит к гибели гельминта [14, 15]. Установлена высокая эффективность препарата при мониезиозе, диктиокаулезе, стронгилятозах пищеварительного тракта овец, коз и крупного рогатого скота в дозе 60 мг/кг, при трихоцефалезе — 80 мг/кг [1–3].

Для внедрения препарата в ветеринарную практику необходимы сведения по параметрам фармакокинетики и остаточным количествам его действующих веществ в органах и тканях животных, что и явилось целью наших исследований. В связи с тем, что после всасывания фенбендазол быстро метаболизируется в печени до сульфоксида (оксфендазола), обладающего антигельминтным действием, и в дальнейшем до сульфона, то их остаточные количества требуют детекции [8].

References

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2. Arkhipov I.A., Varlamova A.V., Danilevskaya N.V., Belova E.E., Sadov K.I. Efficacy of vigisox at helminthiasis in young cattle. Ros. parazitol. zhurnal [Russian Journal of Parasitology], 2011, no. 4, pp. 126-129.

3. Arkhipov I.A., Varlamova A.I., Danilevskaya N. V. Methods for the use of vigisox at helminthiasis in ruminants. Ros. parazitol. Zhurnal [Russian Journal of Parasitology], 2013, no. 2, pp. 112-113.

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9. GOST R ISO 5725-6-2002 Accuracy (trueness and precision) of measurement methods and results.

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11. Khamide Dr., Sen´yuva Z., Gilbert Dzh. Prostoe rukovodstvo dlya pol´zovateley po razrabotke i validatsii metodov. Moscow «OOO Torius 77» Publ., 2011. 43 p.12. Marriner S.E., Bogan J.A. Pharmacokinetics of fenbendazole in sheep. Am. J. Vet. Res. - 1981, мol. 42, No 7, pp. 1146-1148.

12. Prichard E., Barwick V. Quality assurance in analytical chemistry. Spb., Publ. «Professiya», 2011. 320 p. (Russ. ed.: Kontrol’ kachestva v analiticheskoj himii)

13. Rew R.S., Fetterer R.H. Mode of action of Antinematodal Drugs. Chemotherapy of parasitic diseases, 1986, pp. 321-334.

14. Senyuva H.Z., Gilbert J. A simple users’ guide to methods of development and validation. (Russ. ed.: Prostoe rukovodstvo dlya pol’zovateley po razrabotke i validatsii metodov). M., Torius 77 Ltd., 2011. 43 p.

15. Van den Bossche H. Chemotherapy of parasitic infections. Nature (London), 1978, vol. 273, pp. 626-630.

16. US Food and Drug Administration. Guidance for industry: Q2B validation of analytical procedures: methodology. Rockville, MD. 1996.

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