Voltammetric determination of paracetamol in pharmaceutical tablet samples using anthraquinone modified carbon paste electrode

Meareg Amare, Welday Teklay
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引用次数: 19

Abstract

Abstract After cyclic voltammetric investigation of the electrochemical behavior of paracetamol and dependence of peak current on scan rate and pH; square wave voltammetric method based on anthraquinone modified carbon paste electrode was developed for direct determination of paracetamol in pharmaceutical tablet samples. In contrast to the peak potential at the unmodified electrode, appearance of the oxidative peak at a lower potential at the modified electrode indicated a catalytic property of the modifier towards paracetamol oxidation. While the observed peak potential shift with scan rate confirmed the irreversibility of the reaction, comparable correlation coefficients for the dependence of peak current of scan rate and square root of scan rate indicated that the irreversible oxidation reaction was controlled by both diffusion and adsorption. The peak current response of the developed method showed a linear dependence on the paracetamol concentration in the range 5 to 150 ppm. Excellent recoveries (93.5%), wide dynamic range, low limit of detection (0.13 µM), and limit of quantification (0.43 µM) validated the method for determination of paracetamol in real samples. The proposed method was applied for paracetamol determination in four brands of tablet samples (Julphare Aldol, Panadol Adva, Kelvin, and Para Denk) all of which labeled 500 mg/tablet. The paracetamol content of the analyzed four brands of tablet samples using the reported method was ranged between 83.04% (Panadol Adva, Kenya) and 95.08% (Para Denk, Germany) of the labeled amount. The discrepancy might be ascribed to the possible matrix difference among the companies and/or failure of the companies to comply the standard.
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蒽醌修饰碳糊电极伏安法测定片剂中扑热息痛的含量
循环伏安法研究了对乙酰氨基酚的电化学行为及峰值电流与扫描速率和pH的关系;建立了基于蒽醌修饰碳糊电极的方波伏安法直接测定片剂中扑热息痛的含量。与未修饰电极上的峰电位相比,修饰电极上较低电位下氧化峰的出现表明改性剂对扑热息痛氧化具有催化性能。峰电位随扫描速率的变化证实了反应的不可逆性,而峰值电流随扫描速率的变化与扫描速率的平方根的相关性表明,不可逆性氧化反应同时受到扩散和吸附的控制。该方法的峰值电流响应与对乙酰氨基酚浓度在5 ~ 150ppm范围内呈线性关系。该方法回收率高(93.5%),动态范围宽,检出限低(0.13µM),定量限低(0.43µM),可用于实际样品中扑热息痛的测定。应用该方法测定了标签为500 mg/片的4个品牌(Julphare Aldol、Panadol Adva、Kelvin和Para Denk)对乙酰氨基酚的含量。采用该方法分析的4个品牌片剂样品的扑热息痛含量范围为标签量的83.04% (Panadol Adva,肯尼亚)~ 95.08% (Para Denk,德国)。这种差异可能归因于公司之间可能存在的矩阵差异和/或公司未能遵守标准。
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Cogent Chemistry
Cogent Chemistry CHEMISTRY, MULTIDISCIPLINARY-
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