Sheikh I.A.1, Charde M.S.2, Kasture A.V.3
1Department of Pharmaceutical Chemistry, J. L.Chaturvedi College of Pharmacy, Hingna MIDC, Nagpur-16, India
2Department of Pharmaceutical Chemistry, J. L.Chaturvedi College of Pharmacy, Hingna MIDC, Nagpur-16, India
3Department of Pharmaceutical Chemistry, J. L.Chaturvedi College of Pharmacy, Hingna MIDC, Nagpur-16, India
Received : - Accepted : - Published : 21-12-2009
Volume : 1 Issue : 2 Pages : 11 - 19
Int J Pharmaceut Anal 1.2 (2009):11-19
DOI : http://dx.doi.org/10.9735/0975-3079.1.2.11-19
Keywords : Flupenthixol Hydrochloride, Acetonitrile, pH, Eurospher, intersil, recovery, validation
Conflict of Interest : None declared
Acknowledgements/Funding : The authors thank Biocon Laborateries
Bangalore for the sample of Flupenthixol
Hydrochloride.The author also pays his
indebtness for Principal J L Chaturvedi
College of Pharmacy Nagpur for providing
Laboratory Facilities
A simple, selective, rapid, precise and economical reverse phase HPLC method has been developed for estimation of Flupenthixol Hydrochloride in pharmaceutical dosage forms. The method was carried out on a Eurospher C18 (250 cm×4 mm) column with precolumn and a mobile phase consisting of Acetonitrile:Water (pH 3.0) (50:50 v/v) at a flow rate of 1 ml/min. Detection was carried out at 229nm. Acetonitrile was used as an internal standard. The retention time of Flupenthixol HCl was found out to be 3.98. The developed method was validated in terms of accuracy, precision, linearity, limit of detection, limit of quantization and solution stability. The proposed method can be used for the estimation of these drugs in combined dosage forms.
[1] United States Pharmacopeia, National
Formulary, USP 24, (2000) Asian edn,
926-1083
» CrossRef » Google Scholar » PubMed » DOAJ » CAS » Scopus
[2] European Pharmacopoeia, European
Department for the Quality of Medicines
within the Council of Europe,
Strasbourg, (2005) 5, 2607
» CrossRef » Google Scholar » PubMed » DOAJ » CAS » Scopus
[3] British Pharmacopeia, Department of
Health & Social Services For Northern
Ireland., (1993) I-II , 687
» CrossRef » Google Scholar » PubMed » DOAJ » CAS » Scopus
[4] Sethi P.D., (2001) Quantitative Analysis
of Pharmaceutical Formulations, CBS
Publishers and Distributors, New Delhi,
607
» CrossRef » Google Scholar » PubMed » DOAJ » CAS » Scopus
[5] Watson J.R., et.al, (1970) Journal of
Pharmaceutical Sciences 59, 391
» CrossRef » Google Scholar » PubMed » DOAJ » CAS » Scopus
[6] Martindale, The Extra Pharmacopeia
(1999) Pharmaceutical Press, London,
32,1055
» CrossRef » Google Scholar » PubMed » DOAJ » CAS » Scopus
[7] Che, Jinjing, Meng Quingfang. Chen
Zhinang, San Chengpi, Hou Yunan and
Cheng Yuanguo., (2007) The Institute of
Microbiology and Epidemiology, The
Academy of Military Medical Medical
Services (AMMS), NO.20, Dongda
Street, Fengtai District, Beijing, PR
China
» CrossRef » Google Scholar » PubMed » DOAJ » CAS » Scopus
[8] Maryadele J. O’. Neil, Patricia
E.Heckelman, Cheric B. Koch, Kristin J.
Roman, Catherine M. Kenny, Maryann
R. D’ Arecca., (2006) The MERCK
INDEX, AN ENCYLCOPEDIA OF
CHEMICALS DRUGS AND
BIOLOGICALS, Whitehouse Station NJ,
USA.14, 900-1006
» CrossRef » Google Scholar » PubMed » DOAJ » CAS » Scopus
[9] Tripathi K.D., Essentials of Medical
Pharmacology (2003) Jaypee brothers
Medical Publishers (P) Ltd, New Delhi,
5,395-396
» CrossRef » Google Scholar » PubMed » DOAJ » CAS » Scopus
[10] Beckett A.H., Stenlake J.B., (1997)
Practical Pharmaceutical Chemistry,
The press of University of London, CBS
Publisher and Distributor, New Delhi; 4,
281-286-288
» CrossRef » Google Scholar » PubMed » DOAJ » CAS » Scopus
[11] Kasture A.V., Wadodkar S.G., Mahadik
K.R., & More H.M. (2004)
Pharmaceutical Analysis, Nirali
Prakashan, Pune-1; 6, 162
» CrossRef » Google Scholar » PubMed » DOAJ » CAS » Scopus
[12] Sharma BK, (2007) Instrumental methods of
Chemical Analysis, Goel Publishing
House, Meerut,; 25th ed: pp. 4-5
» CrossRef » Google Scholar » PubMed » DOAJ » CAS » Scopus