A validated stability-indicating high performance liquid chromatographic method for moxifloxacin hydrochloride and ketorolac tromethamine eye drops and its application in pH dependent degradation kinetics

Dave, J. B.; Vyas, Pratik J; Patel, Chhagan N.

doi:10.4103/2229-5186.108802

Cited by 9 publications

(4 citation statements)

References 13 publications

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“…A survey of literature revealed that the KT has been analyzed in pharmaceutical preparations either alone or in combination with other drugs by HPLC (Kumaraswamy et al 2012;Razzaq et al 2012;Tsvetkova et al 2012;Dave et al 2013;Dubey et al 2012), HPTLC (Devarajan et al 2000;Vandana et al 2013), voltammetry (Squella et al 1997), and micellar electrokinetic chromatography (Orlandini et al 2004). Though these analytical procedures are sensitive, it entails a disadvantage of not being simple and requiring sophisticated experimental setup, increased cost of analysis and high consumption of solvents by the mobile phase for the chromatographic techniques.…”

Section: Introductionmentioning

confidence: 99%

Spectrophotometric determination and spectroscopic studies on Schiff base and charge transfer complex of ketorolac tromethamine

Ismail

Narayana

2015

J Anal Sci Technol

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Background: Ketorolac tromethamine is a versatile analgesic drug used extensively for the treatment of fever and moderate to severe pain. It is a potent non-steroidal anti-inflammatory drug that extends opioid-level analgesia to patients. Two new selective methods are proposed for spectrophotometric determination of ketorolac tromethamine (KT) in pure and pharmaceutical formulation. Methods: The determination procedures are based on the condensation reaction of KT with 2,4-dinitrophenylhydrazine (DNPH) in strongly alkaline medium resulting in the formation of red-colored hydrazones which is quantitated at 424 nm for method A and method B involves the charge transfer reaction between KT as electron donor and 7,7′,8,8′-tetracyanoquinodimethane (TCNQ) as π-acceptor to form dark green-colored complex which is measured at 842 nm. Results: Linear correlation is obtained in the range 0.50-18.50 μg mL −1 and 2.00-50.00 μg mL −1 with detection limits of 0.1579 and 0.3721 μg mL −1 for method A and method B, respectively. The optimum analytical conditions are analyzed, and the proposed assay is validated as per the ICH guidelines. Conclusions: The developed methods are effectively applied to the determination of KT in tablets, injections, and ophthalmic formulations with good percentage recoveries. The final reaction products are characterized by spectral analysis (FT-IR and

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Section: Introductionmentioning

confidence: 99%

Spectrophotometric determination and spectroscopic studies on Schiff base and charge transfer complex of ketorolac tromethamine

Ismail

Narayana

2015

J Anal Sci Technol

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“…1). Various High Performance Liquid Chromatography (HPLC), High-Performance Thin-layer Chromatography (HPTLC) and spectroscopic methods are available for estimation of MOX in Active Pharmaceutical Ingredient (API) and pharmaceutical dosage form [6][7][8][9][10][11][12][13][14][15][16][17][18] . Chemically, LOT is 7-(ethyl carbonate) chloromethyl 11β,17-dihydroxy-3-oxoandrosta-1,4-diene-17β-carboxylate (fig.…”

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confidence: 99%

Application of Ratio Spectra Derivative Method for Simultaneous Estimation of Moxifloxacin Hydrochloride and Loteprednol Etabonate from Ophthalmic Formulation

Gamit,

Vyas,

Shukla

2024

IJPS

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A simple, precise and accurate ultraviolet-visible spectrophotometer method has been developed by applying ratio spectra derivative method and validated for the simultaneous estimation of moxifloxacin hydrochloride and loteprednol etabonate from ophthalmic formulation. Absorbance of moxifloxacin hydrochloride and loteprednol etabonate was recorded at their respective wavelength and then zero order spectra was converted to first order derivative spectra after dividing respective zero order spectra with divisor concentration. Developed method was linear at concentration range 4-20 µg/ml, (r 2 =0.99) and (r 2 =0.99), for loteprednol etabonate and moxifloxacin hydrochloride respectively. The linear regression equations were y=0.005x+0.001 for loteprednol etabonate and y=0.118x-0.062 for moxifloxacin hydrochloride. The results of analysis were validated which showed that proposed method was simple, precise and accurate.

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“…Forced degradation studies of the bulk drug sample were also performed using the following conditions: acid hydrolysis (0.1N HCl, 1N HCl), basic hydrolysis (0.1 N NaOH, 1N NaOH), heat (60-80°C for 1 hr), photolytic (UV and sunlight for up to 3 hr), oxidation (3% hydrogen peroxide for 1 hr). [21][22][23][24] Still the degradation study is needed to get a clear scenario of its degradation ways.…”

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confidence: 99%

Degradation Study of Ketorolactromethamine by a Validated UPLC Method

Uddin

Al-Amin

Mijan

et al. 2018

IJPST

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UPLC stability indicating method was developed for determining ketorolac tromethamine in its degradation study at different conditions. An isocratic mobile phase composition of 60:10:30 (v/v) containing CH3OH, CH3CN and 5mM NaH2PO4 and C18 column were used at a flow rate of 0.20 mL min-1. Satisfactory retention time was found 2.13±0.05 min at 320 nm when monitored by DAD detector. Forced degradation studies of ketorolac tromethamine was also performed at the following conditions: acid and basic hydrolysis, heat (50-70°C for 1 hr), photolytic (UV and sunlight for up to 3 hr), oxidation (3% hydrogen peroxide for 1 hr). Forced degradation study revealed that ketorolac degraded significantly under thermal conditions. In 1N acid and base hydrolysis, degradation was moderately significant and comparable. It was degraded marginally in 0.1N acid-base hydrolysis which was comparable to oxidative conditions. But in photolytic condition ketorolac shows insignificant degradation. Method was also applied to pharmaceutical formulation.

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A validated stability-indicating high performance liquid chromatographic method for moxifloxacin hydrochloride and ketorolac tromethamine eye drops and its application in pH dependent degradation kinetics

Cited by 9 publications

References 13 publications

Spectrophotometric determination and spectroscopic studies on Schiff base and charge transfer complex of ketorolac tromethamine

Spectrophotometric determination and spectroscopic studies on Schiff base and charge transfer complex of ketorolac tromethamine

Application of Ratio Spectra Derivative Method for Simultaneous Estimation of Moxifloxacin Hydrochloride and Loteprednol Etabonate from Ophthalmic Formulation

Degradation Study of Ketorolactromethamine by a Validated UPLC Method

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