Affiliation:
1. Central Research Laboratory, D.G. Ruparel College Mahim Mumbai 400 016.
Abstract
Simple sensitive and accurate ion pair complex formation, extractive spectrophotometric methods have developed for the estimation of methdilazine hydrochloride in pharmaceutical dosage form. The methods are based on the formation of ion paired coloured complexes by the drug with reactive dyes like Congo red, picric acid and methyl orange in acidic medium. The ion associated complexes were formed and quantitatively extracted under the experimental condition in chloroform. The absorbance values were measured at 490 nm, 400 nm, and 430 nm respectively. The proposed methods were validated statistically. Recoveries of methods were carried out by standard addition method. The linearity was found to be 1-10 μg/ml, 2-12 μg/ml, and 1-14 μg/ml for methods respectively. The low values of standard deviation and percentage RSD indicate high precision of methods. Hence these methods are useful for routine estimation of methdilazine hydrochloride in pharmaceutical dosages.
Reference30 articles.
1. The United States Pharmacopoeia XXIV Revision. The National Formulary XIX Rockville, USP Convention, 2000.
2. R. T. Sane, L. S. Joshi, R. M. Kothurkar, K. D. Ladage, R. V. Tendolkar, and D. P. Gangal, “HPLC determination of methdilazine HCl in pharmaceutical dosage forms,” Indian Journal of Pharmaceutical Sciences. 52(3); 1990: 160–161.
3. K. Croes, P. T. McCarthy, and R. J. Flanagan, “HPLC of basic drugs and quaternary ammonium compounds on microparticulate strong cation-exchange materials using methanolic or aqueous methanol eluents containing an ionic modifier,” Journal of Chromatography A. 693(2); 1995: 289–306.
4. N. W. Smith and M. B. Evans. The efficient analysis of neutral and highly polar pharmaceutical compounds using reversed-phase and ion-exchange electrochromatography. Chromatographia. 1995; 41(3): 197–203.
5. H. Y. Mohammed and F. F. Cantwell. Liquid chromatographie analysis of pharmaceutical syrups using pre-columns and salt-adsorption on amberlite XAD-2. Analytical Chemistry. 1978; 50(3): 491–496.