Aims: Metformin HCl, Dapagliflozin and Saxagliptin is a new drug combination for the treatment of Diabetes Mellitus which is one of the oldest and lethal diseases of mankind. Aim of the research work was to develop and validate novel, rapid, sensitive, specific, robust stability indicating analytical method for simultaneous estimation of: Metformin HCl, Dapagliflozin and Saxagliptin in pharmaceutical dosage form as fixed dose formulation.
Study Design: Method development and validation was performed as recommended in ICH guideline “Validation of analytical procedures: Test and Methodology Q2 (R1)”.
Methodology: Method develop with chromatographic parameters as C18 column (250mm×4.6 mm, 5mm particle size), HPLC system with PDA detector and mobile phase contained a mixture of Phosphate Buffer pH 3.5 and Acetonitrile (80:20 v/v) + 1 ml triethylamine per 100 ml mobile phase. The flow rate was set to 1 ml/min with responses measured at 265 nm, injection volume was 20 µl, and run time of 15 mins.
Results: The retention time of Metformin HCl, Dapagliflozin and Saxagliptin was 5.8 min, 6.8 mins and 8.4 min respectively with resolution of 3.5 between Metformin HCl and Dapagliflozin and 4.5 between Dapagliflozin and Saxagliptin. Linearity was established in the range of 250-1500 µg/ml for Metformin HCl, 1.25-7.5 µg/ml for Dapagliflozin and Saxagliptin with correlation coefficients more than 0.999. The percentage recoveries were between 98.39-101.66 for Metformin HCl, 99.01-101.77 for Dapagliflozin and 98.88-101.87 for Saxagliptin Validation parameters were evaluated according to the International Conference on Harmonization (ICH) Q2 R1 guidelines. The forced degradation studies were performed by using HCl, NaOH, H2O2, thermal and UV Radiation. The developed method was successfully applied for the quantification and hyphenated instrumental analysis.
Conclusion: Significance of developed method is that it can be utilize for routine or unknown sample analysis of assay of Metformin HCl, Dapagliflozin and Saxagliptin in pharmaceutical dosage form developed by various Pharmaceutical Industry.
Aims: Canagliflozin and Metformin HCl is a new drug combination for the treatment of Diabetes Mellitus which is one of the oldest and lethal diseases of the mankind. Aim of the research work was to develop and validate novel, rapid, sensitive, specific, robust stability indicating analytical method for the simultaneous estimation of Canagliflozin and Metformin HCl in the pharmaceutical dosage form as fixed dose formulation.
Study Design: Method development and validation was performed as recommended in ICH guideline “Validation of analytical procedures: Test and Methodology Q2(R1)”.
Methodology: Method develop with chromatographic parameters as C18 column (250mm×4.6 mm, 5mm particle size), HPLC system with PDA detector and mobile phase contained a mixture of Phosphate Buffer pH 5.0 and Acetonitrile (60:40 v/v). The flow rate was set to 1ml/min with responses measured at 290 nm, injection volume was 20 µl, and run time of 15 mins.
Results: The retention time of Metformin Hydrochloride and Canagliflozin was 5.4 min and 7.6 min respectively with resolution of 7.0. Linearity was established in the range of 10-30 µg/ml for Metformin Hydrochloride and 0.5-1.5 µg/ml for Canagliflozin with correlation coefficients more than 0.999. The percentage recoveries were between (98.62-101.22%) and (98.68-101.27%) for Metformin Hydrochloride and Canagliflozin respectively. Validation parameters were evaluated according to the International Conference on Harmonization (ICH) Q2 R1 guidelines. The forced degradation studies were performed by using HCl, NaOH, H2O2, thermal and UV radiation. The developed method was successfully applied for the quantification and hyphenated instrumental analysis.
Conclusion: Significance of developed method is that it can be utilize for routine or unknown sample analysis of assay of Metformin HCl and Canagliflozin in pharmaceutical dosage form developed by various Pharmaceutical Industry.
In this study, building-equipment system with Modified Variable Friction Pendulum System (MVFPS) is investigated under different earthquake ground excitations. Earthquake response of building-equipment system isolated with MVFPS is compared with Variable Friction Pendulum System (VFPS) and Friction Pendulum System (FPS) in order to find efficiency of MVFPS. Newmark’s linear acceleration method is used for solving governing equation of motion for building-equipment system. In this investigation, different storey buildings are considered. It is observed that MVFPS is more efficient in reducing the recoverable energy than FPS, but less efficient than VFPS. From the comparative study, it is found that FPS shows robust performance in comparison to MVFPS and VFPS in reducing equipment acceleration and displacement.
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