A validated HPLC method for determination of furazolidone and oxytetracycline in the presence of related substances

A validated HPLC method for determination of furazolidone and oxytetracycline in the presence of related substances

The objective of the current study was to develop a simple, precise, rapid and accurate reverse phase liquid chromatographic method for the quantitative determination on furazolidone, oxytetracycline and related substances in veterinary formulation. This formulation was submitted to accelerated degr...

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Bibliographic Details
Main Author: Violeta Giugiu
Format: Article
Language:English
Published: Romanian National Association of the Veterinary Products Manufacturers 2013-11-01
Series:Medicamentul Veterinar
Subjects:
HPLC method
simultaneous determination
furazolidone
oxytetracycline
4-epioxytetracycline
α-apooxytetracycline
tetracycline
β-apooxytetracycline
Online Access:http://www.veterinarypharmacon.com/docs/1263-2013-14-2-ART.7.en.pdf
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spelling doaj-f37179e012ca4157b5a8dbb9b3ebd6ee2021-06-02T14:11:48ZengRomanian National Association of the Veterinary Products ManufacturersMedicamentul Veterinar1843-95272069-24632013-11-01724854A validated HPLC method for determination of furazolidone and oxytetracycline in the presence of related substancesVioleta GiugiuThe objective of the current study was to develop a simple, precise, rapid and accurate reverse phase liquid chromatographic method for the quantitative determination on furazolidone, oxytetracycline and related substances in veterinary formulation. This formulation was submitted to accelerated degradation studies under acidic, alkaline and oxidative conditions, exposure to light and thermal stability. The separation of furazolidone, oxytetracycline and degradation products was achieved on BDS Hypersil C18 (250mmx4.6mm, i.d. 5 µm particle size) with gradient mobile phase containing methanol and 80 mM dipotassium phosphate pH 7,5 (20/80). The flow rate was 1.0 mL/min and detection was set at 254 nm, at 25 0C. The developed method was validated with respect to linearity, limits of detection and quantification, specificity, accuracy, and precision.http://www.veterinarypharmacon.com/docs/1263-2013-14-2-ART.7.en.pdfHPLC methodsimultaneous determinationfurazolidoneoxytetracycline4-epioxytetracyclineα-apooxytetracyclinetetracyclineβ-apooxytetracycline
collection DOAJ
language English
format Article
sources DOAJ
author Violeta Giugiu
spellingShingle Violeta Giugiu
A validated HPLC method for determination of furazolidone and oxytetracycline in the presence of related substances
Medicamentul Veterinar
HPLC method
simultaneous determination
furazolidone
oxytetracycline
4-epioxytetracycline
α-apooxytetracycline
tetracycline
β-apooxytetracycline
author_facet Violeta Giugiu
author_sort Violeta Giugiu
title A validated HPLC method for determination of furazolidone and oxytetracycline in the presence of related substances
title_short A validated HPLC method for determination of furazolidone and oxytetracycline in the presence of related substances
title_full A validated HPLC method for determination of furazolidone and oxytetracycline in the presence of related substances
title_fullStr A validated HPLC method for determination of furazolidone and oxytetracycline in the presence of related substances
title_full_unstemmed A validated HPLC method for determination of furazolidone and oxytetracycline in the presence of related substances
title_sort validated hplc method for determination of furazolidone and oxytetracycline in the presence of related substances
publisher Romanian National Association of the Veterinary Products Manufacturers
series Medicamentul Veterinar
issn 1843-9527
2069-2463
publishDate 2013-11-01
description The objective of the current study was to develop a simple, precise, rapid and accurate reverse phase liquid chromatographic method for the quantitative determination on furazolidone, oxytetracycline and related substances in veterinary formulation. This formulation was submitted to accelerated degradation studies under acidic, alkaline and oxidative conditions, exposure to light and thermal stability. The separation of furazolidone, oxytetracycline and degradation products was achieved on BDS Hypersil C18 (250mmx4.6mm, i.d. 5 µm particle size) with gradient mobile phase containing methanol and 80 mM dipotassium phosphate pH 7,5 (20/80). The flow rate was 1.0 mL/min and detection was set at 254 nm, at 25 0C. The developed method was validated with respect to linearity, limits of detection and quantification, specificity, accuracy, and precision.
topic HPLC method
simultaneous determination
furazolidone
oxytetracycline
4-epioxytetracycline
α-apooxytetracycline
tetracycline
β-apooxytetracycline
url http://www.veterinarypharmacon.com/docs/1263-2013-14-2-ART.7.en.pdf
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AT violetagiugiu validatedhplcmethodfordeterminationoffurazolidoneandoxytetracyclineinthepresenceofrelatedsubstances
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