Abstract
A binary mixture of imipramine HCl and chlordiazepoxide was determined by three different spectrophotometric methods. The first method involved determination of imipramine HCl and chlordiazepoxide using the simultaneous equations and the second method involved absorbance ratio method. Imipramine has absorbance maxima at 251 nm, chlordiazepoxide has absorbance maxima at 264.5 nm and isoabsorptive point is at 220 nm in methanol. Linearity was obtained in the concentration ranges of 1-25 and 1-10 μg/ml for Imipramine HCL and Chlordiazepoxide, respectively. The third method involved determination of these two drugs using the first-derivative spectrophotometric technique at 219 and 231.5 nm over the concentration ranges of 1-20 and 2-24 μg/ml with mean accuracies 99.46±0.78 and 101.43±1.20%, respectively. These methods were successively applied to pharmaceutical formulations because no interferences from the tablet excipients were found. The suitability of these methods for the quantitative determination of the compounds was proved by validation.
Highlights
A binary mixture of imipramine HCl and chlordiazepoxide was determined by three different spectrophotometric methods
For the simultaneous equation method, working standard solutions having concentrations 1, 5, 10, 15, 20 and 25 μg/ml for IMI and 1, 2, 4, 6, 8 and 10 μg/ml for CLR were prepared in methanol using the stock solutions
Working standard solutions having concentration 1, 5, 10, 15, 20 and 25 μg/ml for IMI and 1, 2, 4, 6, 8 and 10 μg/ml for CLR were prepared in methanol using stock solutions and the absorbances at 220 nm and 264.5 nm, (λ-max of CLR) were measured and absorptivity coefficients were calculated using calibration curve
Summary
A binary mixture of imipramine HCl and chlordiazepoxide was determined by three different spectrophotometric methods. The purpose of this study was to determine both drugs concurrently by simple, accurate, rapid and precise simultaneous equation, Q-absorbance ratio and first derivative spectrophotometric assays for routine analysis.
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