Stability-indicating HPLC Method for Simultaneous Determination of Atenolol, Aspirin, Lisinopril and Simvastatin in Bulk and Tablets

Rao, N. Mallikarjuna; Gowrisankar, D.

doi:10.4172/pharmaceutical-sciences.1000106

Cited by 3 publications

(3 citation statements)

References 6 publications

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“…Based on the presented, it is very difficult to find out which is the ideal pH value that will ensure that LSDH and its impurities are presented only in molecular or ionic form. By reviewing the literature [11,[13][14][15]17] various SIM methods with a range of pH values from 2.2 to 7.1 are developed, which is still quite a wide range. By using the estimate obtained in the Marvin Sketch program, LSDH and most impurities at a pH of 3.0 -4.0 are ~ 100% in molecular form, and this pH value of 3.0 will be used to prepare the mobile phase in a chromatographic analysis of this stress study [11].…”

Section: Resultsmentioning

confidence: 99%

“…Based on the literature review [12][13][14][15][16][17], it can be seen that until now similar analyses with LSDH have not been performed. This is the first time that this type of experiment was carried out at two temperatures (25°C and 50°C) under the influence of various stress agents, where the stability and degradation profile of the test compound was determined based on kinetic parameters and Ea.…”

Section: Figure 1 Chemical Structure Of Lisinopril Dihydratementioning

confidence: 99%

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Stress Degradation of Lisinopril Dihydrate in Different Aqueous Media

Vujanović

Knežević

Vukičević

2017

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Lisinopril is an antihypertensive drug from the ACE inhibitor group. It is often used in practice and, in oral administration is characterized by very low percentage of resorption (~25%). Therefore, it is important to ensure the stability of this drug, since any degradation leads to a decrease in the percentage of resorption and an increased risk of sub-dosage of patients. In accordance with modern trends of pharmaceutical analysis, the chemical stability of lisinopril under the influence of various aqueous media was tested: distilled water, 0.1M HCl, 0.1M and 0.01M NaOH and 3% hydrogen peroxide solution. In order to clearly define the effect of elevated temperature on the stability of this drug, tests were carried out at 25 °C and 50 °C. High-pressure liquid chromatography was used as the method for stability testing. The obtained results clearly define that lisinopril is the most sensitive to hydrolysis in the base environment, where at 25 °C, in the first minute, it degrades ~100%. In this paper, kinetic parameters (degradation constant rate, half-life of degradation, order kinetics, and activation energy) were also determined, which enabled clear definition of the stability and identification of degradation products of lisinopril under the influence of various stress agents. In the degradation of lisinopril in neutral and acidic medium, impurity D is identified as the main degradation product.

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Section: Resultsmentioning

confidence: 99%

Section: Figure 1 Chemical Structure Of Lisinopril Dihydratementioning

confidence: 99%

Stress Degradation of Lisinopril Dihydrate in Different Aqueous Media

Vujanović

Knežević

Vukičević

2017

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“…When ACE inhibitors are used at the same time, activation of the renin-angiotensin system is prevented, enhancing the effect of both therapies and decreasing their side effects as lower doses are needed [2,3]. LIS was previously analyzed by titrimetric [4], spectrophotometric [5][6][7][8][9][10][11][12][13][14], Spectrofluorimetric [15][16][17][18][19], chromatographic [20][21][22][23][24][25][26][27][28][29][30][31][32][33][34][35][36][37][38], electrophoretic [39,40] and electrochemical methods [4,41,42]. Mixtures of LIS and HCT were analyzed simultaneously by spectrophotometric [43][44][45], chromatographic [21,22,29,<...>…”

Section: Introductionmentioning

confidence: 99%

Two smart spectrophotometric methods for simultaneous determination of Lisinopril and Hydrochlorothiazide in binary mixtures

Mohammed

El-Din

Derayea

2019

Journal of advanced Biomedical and Pharmaceutical Sciences

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Two new, simple, fast and sensitive spectrophotometric methods were developed for analysis of binary mixtures of Lisinopril (LIS) and hydrochlorothiazide (HCT). These methods were absorptivity factor method and ratio subtraction method. In the first method, calculations were made using the absorbance of the mixtures at 211 nm where LIS absorptivity is half HCT absorptivity. On the other hand, the second method was based on obtaining the original spectrum of LIS from the zero order spectrum of the binary mixture then determining the concentration of LIS from its linear regression equation. HCT concentration in both methods was determined from the absorbance at 270 nm where a lack of interference of LIS occurs. The methods were validated according to ICH and applied successfully on different ratios of laboratory mixtures and on pharmaceutical tablets with excellent accuracy and precision.

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