This study developed a stability-indicating reversed-phase-HPLC method for the determination of related substances of the novel antituberculosis drug pretomanid.Critical quality attributes were evaluated and established for the robust method conditions by using quality-by-design based design of experiments. Forced degradation studies were carried out under acidic, basic, thermal, oxidative, and photolytic stress conditions. Pretomanid degraded when treated under basic conditions, whereas no significant degradation was observed under other stress conditions. The impurities were separated using a Bakerbond C18 column (150 Â 4.6 mm, 3 μm) with the mobile phases 0.1% of orthophosphoric acid and acetonitrile in a time gradient mode.The HPLC method was validated according to the ICH (International Council for Harmonisation of Technical Requirements for Pharmaceuticals for Human Use) tripartite guidelines. Limit of detection and limit of quantitation of pretomanid and all its impurities were 0.1 and 0.4 μg/mL, respectively. The method was found to be linear with a correlation coefficient >0.99, precision (% relative standard deviation < 5.0), robustness, and accuracy (% recovery: 85-115%). Stability studies were evaluated according to the ICH-Q1A, and the drug was were found to be stable in all storage conditions.
For the purpose of identifying enantiomeric impurities in the drug substance and pharmaceutical dosage forms of the novel anti-TB medication pretomanid, an RP-high-performance liquid chromatography method was devised. To ensure the robustness of the optimized approach, analytical quality by design was used. Studies on factor screening and risk evaluation helped pinpoint the critical method parameters (CMPs); resolution (R1), analyte retention time (R2) and tailing factor (R3) are those terms. Pareto charts, half-normal plots, 3D surface plots, 2D contour plots and 3D cube plots were used to study the effects of solo and interactive CMPs on critical analytical attributes. Analysis of variance (ANOVA) was used to verify the technique parameters’ confirmation of significance (P = 0.05). With a Chiral Cel OJ-3R (150 × 4.6 mm, 3 µm) and a mobile phase consisting of 20 mM of ammonium trifluoroacetate, pH = 2.5, and acetonitrile in a gradient mode, chromatographic separation was accomplished. At 30°C and 330 nm, the column’s temperature and wavelength, respectively, were recorded. The procedure is stability-indicating and is LC–MS compatible. According to the International Conference on Harmonization tripartite guidelines, the method demonstrated appropriate specificity, sensitivity, linearity, accuracy, precision and robustness. The LOD and LOQ were, respectively, 0.09 and 0.3 μg/mL. With a correlation coefficient of >0.990, it was discovered that the established method for enantiomeric impurity was linear over the concentration range of 0.3–2.25μg/mL. The approach exhibits adequate accuracy (%recovery = 85–115%), robustness (%RSD = 5.0) and precision (%RSD = 5.0). The method was also shown to be stability-indicating and was shown to provide effective separation in the presence of degradation products through the use of forced degradation tests.
Validated stability-indicating analytical method was established for the quantitative determination of paroxetine and its related substances in API and it’s finished product in the presence of degradation products. To prove the stability-indicating nature of the method, stress studies were carried out. The method was developed by using (Waters, symmetry C18, 250×4.6 mm, 5 μm column) employing water:THF: TFA 90:10:1 (v/v/v) as mobile phase-A and mobile phase-B consist of ACN:THF: TFA the proportion of 90:10:1 (v/v/v) in a gradient mode with a flow rate of 1.5 mL/min was chosen. The column and sample cooler were kept at 45°C and 5°C respectively and 285 nm used as detection wavelength. Significant degradation observed in alkaline conditions, whereas no signification decay in drug stability was observed in other decomposition environments. Method development as well as optimisation studies were done by analysing the samples generated in the stress studies and spiked samples. Mass balance was found to be in the range of 90.3 and 100.1%, signifying the method is stability-indicating. All earlier analysis methods for the analysis of paroxetine have not been entirely validated by considering all the degradation products. The established method validated as per ICH Q2 (R1) and considered as linear, specific, accurate, precise, rugged, robust and found to be suitable for the routine and stability analysis of the product.
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