A novel, facile, rapid, and precise synchronous spectrofluorimetric method was evolved for the simultaneous estimation of bisoprolol fumarate and ivabradine in dosage forms and biological fluids. The estimation is based on measuring the first derivative of the synchronous fluorescence spectra of ivabradine and bisoprolol fumarate in ethanol at Δλ = 80 nm. The peak amplitudes are measured at 234.4 nm (zero-crossing point of ivabradine) and 244.0 nm (zero-crossing point of bisoprolol fumarate) to simultaneously analyze bisoprolol fumarate and ivabradine, respectively. The spectrofluorimetric method was optimized by investigating different solvent systems, pH values, and surfactants. The proposed method was linear over concentration ranges 30.0-200.0 ng/ml and 30.0-180.0 ng/ml for ivabradine and bisoprolol fumarate, respectively with detection limits of 4.88 and 5.28 ng/ml. The developed method was used for individual assay of the studied compounds in their pharmaceutical dosage forms with high percentage recoveries. Moreover, the method was applied to analyze ivabradine and bisoprolol fumarate in spiked human urine with percentage recoveries of 99.98 ± 1.16 and 99.95 ± 1.96 for ivabradine and bisoprolol fumarate, respectively. The method greenness was also investigated by Analytical GREEnness (AGREE), Analytical Eco-Scale, and Green Analytical Procedure Index (GAPI) metrics, which ensured the ecofriendship of the proposed method.
Keywords: biological samples; bisoprolol fumarate; first derivative; greenness evaluation; ivabradine; synchronous spectrofluorometry.
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