MULTISENSORY COLORIMETRIC ANALYSIS OF DRUGS DYDROGESTERONE, TROXERUTIN AND ADEMETIONINE USING BARCODES

Pharmacy & Pharmacology Pub Date : 2021-06-23 DOI:10.19163/2307-9266-2021-9-1-64-72

O. V. Monogarova, A. A. Chaplenko, K. Oskolok

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引用次数: 2

Abstract

The aim of this study is to develop a universal, rapid and affordable method for the identification of dydrogesterone, troxeru tin, and ademetionine in drugs by multisensor digital colorimetry using a unique two-dimensional code. The developed approach can be applied to rapid detection of counterfeit drugs at the preliminary stage of the analysis (before using more expensive specialized equipment). Materials and methods. To implement the proposed approach, the substances of dydrogesterone (“Abbott Biologicals B.V.”, Netherlands), troxerutin (JSC “Interfarma”, Prague, Czech Republic) and ademetionine (LLC “Farmamed”, Moscow, Russia), troxerutin capsules 300 mg (LLC “Pranafarm”, Samara, Russia), lyophilisate for an intravenous solution and the intramuscular administration “Heptral” ® (ademetionine) 400 mg (“Abbott Laboratories”, GMBH, Germany), tablets “Duphaston” ® (dydro gesterone) 10 mg (“Abbott Healthcare Products B.V.”, Netherlands), were used. A multisensor colorimetry method has been implemented using the following set of 8 sensors (C 1 –C 8 ): an intact solution – a 96% (v/v) aqueous ethanol solution – C 1 ; 1 mM alcoholic solution of anthraquinone green (CAS#4403-90-1) – C 2 ; a 0.2% aqueous solution of 3-methylbenzothiazoli none hydrazone (CAS#1128-67-2) – C 3 ; a 0.2% methyl orange aqueous solution (CAS#547-58-0) – C 4 ; a 1 mM alcoholic solu tion of sulforhodamine B (CAS#3520-42-1) – C 5 ; a 1 mM alcoholic solution of 1-hydroxypyrene (CAS#5315-79-7) – C 6 ; 1 mM alcoholic solution of allura red AC (CAS#25956-17-6) – C 7 ; a 1 mM aqueous solution of iron (III) chloride – C 8 . Transparent flat-bottomed polypropylene plates with 96 cells, with a cell volume of 350 µl (Thermo Fischer Scientific, USA, cat. No. 430341) were used as a base for the chip. For obtaining raster images, an Epson Perfection 1670 office flatbed scanner (CCD-matrix) with a removable cover was used. The obtained digital images of the cells were processed using the ImageJ software (Wayne Rasband, National Institutes of Health, USA; http://imagej.nih.gov/ij) with a 24-bit RGB color model (8 bits per channel). Results. The adequacy of the developed approach was confirmed by the analysis of the above-listed drugs. It has been shown that the results obtained have no statistically significant differences from the values determined by the spectrophotometric method. Conclusion. The possibility of using multisensor digital colorimetry for pharmaceutical analysis has been shown. The devel oped methods for the identification of the active substances can serve as a good supplement to more expensive traditional methods.

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使用条形码的药物地屈孕酮、曲谢鲁丁和腺苷的多感官比色分析

本研究的目的是开发一种通用、快速和经济的方法，通过多传感器数字比色法使用独特的二维码来鉴定药物中的地屈孕酮、曲克瑟锡和腺苷。开发的方法可用于在分析的初步阶段(在使用更昂贵的专门设备之前)快速检测假药。材料和方法。为实施提议的方法，地屈黄酮(“雅培生物制品有限公司”，荷兰)、曲克鲁丁(JSC“Interfarma”，布拉格，捷克共和国)和腺苷(LLC“Farmamed”，莫斯科，俄罗斯)、曲克鲁丁胶囊300毫克(LLC“Pranafarm”，萨马拉，俄罗斯)、冻干液用于静脉溶液和肌内给药“Heptral”®(腺苷)400毫克(“雅培实验室”，GMBH，德国)、使用片剂“Duphaston”®(地卓孕酮)10 mg(“Abbott Healthcare Products B.V.”，荷兰)。采用以下8个传感器(c1 - c8)实现了一种多传感器比色法:完整溶液- 96% (v/v)乙醇水溶液- c1;1 mM蒽醌绿醇溶液(cas# 4403-90-1) - c2;0.2%的3-甲基苯并噻唑无腙水溶液(CAS#1128-67-2) - c3;0.2%甲基橙水溶液(CAS#547-58-0) - c4;1毫米硫胺B酒精溶液(CAS#3520-42-1) - c5;1-羟基芘的1毫米酒精溶液(CAS#5315-79-7) - c6;1mm紫红色AC (cas# 25956-17-6) - c7酒精溶液;1mm的氯化铁(III) - c8水溶液。透明平底聚丙烯板，96个细胞，细胞体积为350µl (Thermo Fischer Scientific, USA, cat。编号430341)作为芯片的基础。为了获得光栅图像，使用爱普生perfect1670办公室平板扫描仪(ccd矩阵)，带有可移动的盖子。获得的细胞数字图像使用ImageJ软件(Wayne Rasband, National Institutes of Health, USA;http://imagej.nih.gov/ij)具有24位RGB颜色模型(每个通道8位)。结果。对上述药物的分析证实了所开发方法的充分性。结果表明，所得结果与分光光度法测定的值无统计学上的显著差异。结论。显示了使用多传感器数字比色法进行药物分析的可能性。所开发的活性物质鉴定方法可以作为昂贵的传统方法的良好补充。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Pharmacy & Pharmacology

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