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Quantitative determination of tolfenamic acid and its pharmaceutical formulation using FTIR and UV spectrometry

100%
Ahmed S., Sheraz M., Yorucu C., Rehman I.
Open Chemistry
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2013
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vol. 11
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issue 9
1533-1541
EN
Abstract The quantitative analysis of Tolfenamic Acid (TA) both as a pure compound and in tablet dosage form has been carried out using FT-IR and UV spectroscopy. In the FT-IR method, a number of characteristic absorption peaks were examined that could be used for analytical purpose. The analysis was carried out by preparing calibration curves of peak height/area versus TA content using two points baseline correction with fixed location, and the data was also analyzed through PLS regression model. In the UV method, ethanolic solutions of the drug were analyzed at 288 nm (λmax) using 480 as the value of A (1%, 1 cm) at the analytical wavelength. The results have been compared statistically for recovery, precision, accuracy and linearity with the British Pharmacopoeial titration method that showed good validity of both test procedures. The two test methods exhibited good recovery of TA with an accuracy of 99.75–100.83% and 99.53–100.11% by FTIR spectrometry for peak height and area respectively and 100.21% for UV method. However, UV spectrometry was found to be more accurate and precise on the basis of statistical evaluation and hence can be employed in the quality control of TA in pharmaceuticals as an alternative to the titration method. Graphical abstract [...]
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Multicomponent spectrometric analysis of riboflavin and photoproducts and their kinetic applications

76%
Sheraz M., Kazi S., Ahmed S., Qadeer K., Khan M., Ahmad I.
|
EN
Riboflavin (RF) is a light sensitive compound and is known to form a number of photoproducts. These photoproducts possess the same nucleus and may interfere in the analysis of RF by UV and visible spectrometry. Therefore, it is necessary to apply the methods of multicomponent spectrometric analysis to quantify the vitamin and its photoproducts accurately. Such methods are useful in the study of the kinetics of photodegradation reactions of RF to obtain accurate and reliable results. Any interference in these methods due to linear or nonlinear irrelevant absorption of the minor unknown products can be accounted for by the application of appropriate correction procedures prior to kinetic treatment. Various factors affecting the accuracy, precision and selectivity of these analytical procedures are also discussed. This review highlights the principles and applications of multicomponent spectrometric methods and their application to the simultaneous determination of RF and its major photoproducts in degraded solutions to evaluate the kinetics of degradation.
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