Abstract

We report herein an accurate, precise, and economical stability indicating high performance thin layer chromatographic (HPTLC) method developed to assess the safety of olanzapine in pharmaceutical formulations. Olanzapine was subjected to forced degradation studies to assess the effect of environmental conditions on its stability. Stress conditions such as hydrolysis under acidic and alkaline environment, degradation and oxidation by heat, light and air were used to study the stability of olanzapine. Mobile phase comprising of toluene: methanol (5:5 v/v) and aluminum plate pre-coated with silica gel 60 F254 as a stationary phase were used for the development of chromatogram by HPTLC technique. Densitometric analysis of olanzapine carried out at 297 ​nm gave sharp symmetrical peak with Rf value of 0.50 and a satisfactory baseline resolution for all components. The drug was found to undergo degradation under acidic, alkaline and oxidative conditions. A single distinct peak in acidic and alkaline media while two peaks obtained as a result of oxidative degradation were well resolved along with the parent drug. The degradation products and parent drug showed significantly different Rf values. The developed HPTLC method gave quick and reproducible results for the olanzapine content in the tablets. The mean recoveries were 100.75% which confirms accuracy of the proposed method. The method was further validated for specificity, ruggedness and robustness. Based on the results, it can be suggested that the developed HPTLC method is quite efficient in separating the olanzapine from its degradation products; hence it can be used by pharmaceutical industries and regulatory bodies for the routine analysis of olanzapine in various pharmaceutical dosage forms.

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