Precision was reported as percentage of relative standard deviati

Precision was reported as percentage of relative standard deviation (RSD %). Method precision had a relative standard deviation (RSD%) is 0.75 for repeatability (0.32% for retention times and 0.41% for area) and for intermediate of precision (0.19% for retention time and 0.5% for area), which comply with the acceptance criteria proposed (RSD%: not more than 1.5%). The limits of detection

and quantitation of sitagliptin phosphate enantiomers were estimated by obtaining the detector signal for the peaks and by performing serial dilution of a solution of known concentration. The limits of detection and quantitation were found to be 150 ng/mL and 400 ng/mL, respectively with the peak signal to noise ratios of about 2.3–3.6 at LOD level and 913 at LOQ level. These results suggest that the proposed LC method S3I-201 molecular weight is sufficiently sensitive for the determination of sitagliptin phosphate enantiomers. The linearity of the HPLC method was evaluated by injecting standard concentrations of (S)- and (R)-SGP samples with a concentration ranging from 400 to 2250 ng/ml (400, 750, 1200, 1500, 1800 and 2250 ng/mL). The

peak area response was plotted versus the nominal concentration of the enantiomer. The linearity was evaluated by linear regression analysis, which was calculated by the least square regression Cobimetinib in vitro method. The obtained calibration curve for the (S)-SGP showed correlation coefficient greater than 0.995: y = 10279x − 221838, where y is the peak area and x is the concentration. The accuracy of the method was tested by analyzing samples of (S)-SGP form at four various concentration levels. Standard addition and recovery experiments were conducted to determine the accuracy of the method for the quantification of S-isomer in the sitagliptin phosphate sample. The study was carried out in triplicate at 400, 750, 1500 and 2250 ng/mL of the analyte concentration (2.0 mg/mL).

The percent recovery for S-isomer Megestrol Acetate was calculated and the results were shown in Table 1. To determine the robustness of the developed methods, experimental conditions were purposely altered and the resolution between sitagliptin and its (s)-enantiomer was evaluated. In all of the deliberately varied chromatographic conditions (flow rate and column temperature), all analytes were adequately resolved and elution orders remained unchanged. Resolution between S-isomer and R-isomer was greater than 3.0 in each robust condition. The resolutions between the impurities under various conditions are listed in Table 2. A new chiral HPLC method for the separation of sitagliptin phosphate enantiomers was developed and validated. The chiral separation was achieved in amylose carbamate derivatized column (Chiralpak AD-H). This method is simple, accurate and has provided good linearity, precision and reproducibility. The practical applicability of this method was tested by analyzing various batches of the bulk drug and formulations of sitagliptin phosphate.

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