Abstract
A, rapid and specific spectrofluorimetric procedure was developed and validated for determination of mebendazole. The reaction of mebendazole with lanthanum (III) ions in aqueous buffered solution (pH 5.5) produced a highly fluorescent stable complex which exhibited an emission at 340 nm (λex 295 nm). Different types of surfactant were examined to enhance the fluorescence of the complex but none of them was effective. Other reaction parameters that affect the formation and stability of the resulting complex were studied and adjusted. The linearity range for the relationship between the fluorescence intensity and the drug concentration was 0.07–0.8 μg mL−1 with a correlation coefficient (r) of 0.9997. The quantitation and detection limits were 0.068 and 0.022 μg mL−1, respectively. The metal was found to react with the drug in the ratio of 2:1 drug to metal with a binding constant of 1.67 × 105. The change in Gibb's free energy for the reaction was −29.8 KJ mol−1, which indicates the high feasibility of the reaction. Some dosage forms and spiked human plasma were analyzed successfully with the developed method with high recovery. The main percentage recovery was in the range of 100.32–100.52% for dosage forms and 94.74–97.31% for spiked plasma. The results of both the reported and proposed methods were statistical compared and the comparison revealed good accuracy and precision of the proposed method.
The suggested reaction for the chelate formation between mebendazole and La(III) ions in a buffered solution. [Display omitted]
•Lanthanum (III) interacts with mebendazole to give highly fluorescent complex.•The reaction was utilized to set up a new spectrofluorimetric method for the drug.•Tablets, suspension and human plasma were successfully analyzed without interference.•The method is rapid, simple, inexpensive and suitable for quality control analysis.