Investigation of the electrochemical properties of edoxaban using glassy carbon and boron-doped diamond electrodes and development of an eco-friendly and cost effective voltammetric method for its determination

In this study, the highly risky drug Edoxaban (EDX), which can threaten life and cause bleeding, was electro analytically evaluated. The electrochemical behavior of EDX was investigated using glassy carbon electrode (GCE) and boron-doped diamond electrode (BDDE). In this study, for the first time, a simple, rapid, sensitive, and selective voltammetric technique was developed by using different electrodes for the electrochemical characterization and detection of EDX. The optimized voltammetric technique showed anodic signals of EDX at +1.09 V and +1.08 V on GCE and BDDE, respectively, in BR (pH 5.0) solution. The developed voltammetric method provided a very good analytical working range for EDX in BR (pH 5.0) solution on GCE and BDDE, covering concentration ranges from 1.84 mu M to 12.88 mu M and from 3.68 mu M to 14.72 mu M, respectively. The limits of detection for EDX on GCE and BDDE under these experimental conditions were calculated as 0.24 mu M and 0.57 mu M, respectively. The developed voltammetric methods on both electrodes were successfully applied to urine and tablet samples. Additionally, the obtained voltammetric results were compared with UV-Vis spectroscopy results.

Automated summary

This study developed a simple, rapid, sensitive, and selective voltammetric technique for the electrochemical characterization and detection of the highly risky drug Edoxaban. The optimized voltammetric method showed good analytical working range and was successfully applied to urine and tablet samples.