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.
Objective: This assessment depicts the strength of exhibiting reverse-phase high performance liquid chromatography (RP-HPLC) method for the estimation of torsemide in pharmaceutical estimation structures. Methods: In the present work, total protein-HPLC technique has been produced for the estimation of torsemide active pharmaceutical ingredient (API). Constrained degradation HPLC strategy was created with versatile mobile phase of methanol:water in the proportion of 90:10 v/v. The stream pace of 1 ml/min was utilized on Inertsil ODS 3V segment (250 mm×4.6 mm, 5 μm molecule size). Results: The retention time of torsemide was seen at 8.267 min, method was validated for all validation parameters as per the International Council for Harmonization guidelines. The linearity range was 10–60 μg/ml, correlation coefficient was 0.9993, and percentage relative standard deviation in the precision studies was <2%, with percentage recovery 100.56–101.03 (within acceptable range of 98–102%). The assay result was found to be 100.88% (i.e., within 95–105%), passes the specifications for robustness parameters. Limit of detection of torsemide was found to be 0.0162 μg/ml and limit of quantitation of torsemide was found to be 0.0534 μg/ml. Conclusion: The medication was exceptionally delicate to antacid pursued by at risk to corrosive, photolytic, warm, and oxidative conditions. The created and approved method showing HPLC technique is observed to be direct, exact, precise, explicit, and powerful. Henceforth, the technique can be utilized routinely for the estimation of torsemide API.
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