A novel kinetic cholinesterase-inhibition based method for quantification of biperiden in pharmaceutical preparations

V. Djurić, V. Mitić, N. Deletic, M. Ilic, B. Ćirković, V. Stankov-Jovanović
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Abstract

Biperiden, an antiparkinsonian anticholinergic drug, has been found to inhibit enzymatic hydrolysis of butyrylthiocholine iodide, which is catalyzed by serum cholinesterase. By measuring the difference in the basic and inhibitory hydrolysis reaction rates, in the presence of biperiden as an inhibitor, it is possible to develop a kinetic method for its determination. Both systems, enzyme-substrate-chromogen and enzyme-substrate-chromogen-inhibitor, were characterized by biochemical parameters (KM = 0.326 ? 0.330 mmol dm-3; Vmax = 40 - - 99 ?mol dm-3 min-1), while inhibition was defined as non-competitive with the constant of inhibition Ki = 6.142 ?mol dm-3. The reaction conditions have been optimized followed by determination of the calibration curve, the corresponding equation and the limits of detection and quantification yielding 3.84 and 12.80 nmol dm-3, respectively. Using the calibration chart, it is possible to determine biperiden in different samples in the concentration range of 0.035?35.940 ?mol dm-3. Influence of a number of substances, found in the sample, on the reaction rate was also examined. The optimized method was applied for determination of biperiden in pharmaceutical preparations. Accuracy of the method was tested using the standard addition method. The proposed method has good sensitivity, selectivity, it is simple and fast, and above all easily accessible, and thus applicable in biochemical and pharmaceutical laboratories.
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一种新的动态胆碱酯酶抑制方法定量药物制剂中双藤碱
Biperiden是一种抗帕金森病的抗胆碱能药物,已被发现能抑制血清胆碱酯酶催化的丁基硫代胆碱碘化酶水解。通过测定碱性水解反应速率和抑制性水解反应速率的差异,在双刺藤作为抑制剂存在的情况下,有可能建立一个动力学方法来测定它。酶-底物-显色剂体系和酶-底物-显色剂体系的生化参数(KM = 0.326 ?0.330 mmol dm-3;Vmax = 40 ~ 99 μ mol dm-3 min-1),抑制常数Ki = 6.142 μ mol dm-3,定义为非竞争性抑制。优化了反应条件,建立了标定曲线和方程,检测限和定量限分别为3.84和12.80 nmol dm-3。利用校准图,可以在0.035 ~ 35.940 mol dm-3的浓度范围内测定不同样品中的双毒草。还研究了样品中发现的一些物质对反应速率的影响。将优化的方法应用于制剂中双蛇藤烯的含量测定。用标准加法法检验了方法的准确性。该方法具有灵敏度高、选择性好、简便快捷、易于获取等优点,适用于生化实验室和制药实验室。
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