Firstly electrochemical investigetions and determination of anticoagulant drug edoxaban at single-use pencil graphite electrode: an eco-friendly and cost effective voltammetric method.

Abdulkadir Kiliç, Mehmet Aslan, Günay Önal, Abdulkadir Levent
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Abstract

Objectives: The anticoagulant drug edoxaban has a blood thinning mechanism of action. In this study, a pencil graphite electrode was electrochemically activated at + 1.4 V for 60 s. in a Britton-Robinson (pH 9.0) supporting electrolyte solution.

Evidence acquisition: A simple, fast, and sensitive electrochemical procedure was developed using cyclic voltammetry and square wave voltammetry techniques. It was observed that edoxaban gave a good oxidation signal with cyclic voltammetry technique at a potential of + 0.98 V (vs. Ag/AgCl).

Results: This procedure showed a linear response in a Britton-Robinson (pH 9.0) media within the concentration range of 0.2-1.8 µM and limit of detection (LOD) and the limit of quantification (LOQ) values were determined to be 0.073 μM (0.133 μg mL-1) and 0.243 μM (0.443 μg mL-1), respectively.

Conclusion: The method developed in this study was successfully applied to drug and urine samples. The developed voltammetric method was highly selective and gave satisfactory recovery results in urine and pharmaceutical samples. The results of the voltammetric method were compared with the spectroscopic method and it was determined that the results were compatible.

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首次在一次性笔状石墨电极上电化学研究和测定抗凝血药物依多沙班:一种环保、经济的伏安法。
目的:抗凝血药物依多沙班具有血液稀释作用机制。在这项研究中,铅笔石墨电极在 + 1.4 V持续60秒。在支持Britton Robinson(pH 9.0)的电解质溶液中。证据获取:使用循环伏安法和方波伏安法技术开发了一种简单、快速、灵敏的电化学程序。用循环伏安法观察到,依多沙班在电位为 + 0.98V(相对于Ag/AgCl)。结果:该程序在浓度范围为0.2-1.8µM的Britton-Robinson(pH 9.0)介质中显示出线性响应,检测限(LOD)和定量限(LOQ)值分别为0.073μM(0.133μg mL-1)和0.243μM(0.443μg mL-)。结论:本研究开发的方法已成功应用于药物和尿液样品。所开发的伏安法具有很高的选择性,在尿液和药物样品中给出了令人满意的回收结果。将伏安法的结果与光谱法的结果进行了比较,确定结果是相容的。
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