DETERMINATION OF ANTIBIOTICS CEPHALOSPORIN SERIES WITH PIEZOELECTRIC SENSORS IN WATER SOLUTIONS

Applied Information Aspects of Medicine (Prikladnye informacionnye aspekty mediciny) Pub Date : 2023-07-13 DOI:10.18499/2070-9277-2023-26-1-56-62

Olga K. Petrova, Irina I. Ivanova, Anna A. Shapovalova, A. Zyablov

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Abstract

The aim of the work was to create a piezoelectric sensor modified with a polymer with molecular imprints of cefuroxime for its subsequent determination in aqueous solutions. For the synthesis of MIP, we used a mixture containing a copolymer of 1,2,4,5-benzenetracarboxylic acid and 4,4'-diaminodiphenyl oxide produced by OJSC IIPP SPA Plastic (Moscow), as well as a solution containing template molecules. The resulting mixture was applied to the surface of the sensor electrode by stamping. After that, thermal imidization was carried out in an oven. Next, the sensors were cooled and placed in distilled water to remove the template. The resulting sensor was used to determine the content of the antibiotic cefuroxime in aqueous solutions using a calibration curve. For this, standard solutions of cefuroxime were prepared with concentrations of 1.0101 1.0107 g/dm3. The measurements made allowed us to conclude that with an increase in the antibiotic concentration in the analyzed solution, a decrease in the resonant frequency occurs. The calibration dependence is linear. The limit of detection of cefuroxime for the obtained sensor is 1.0105 g/dm3. To test the selectivity of the obtained sensor based on a polymer with molecular imprints, an analysis of an antibiotic similar in structure, cefazolin, was carried out. It has been established that the sensory system is selective only for the antibiotic that was used for the synthesis of MIP.

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利用压电传感器测定水溶液中的头孢菌素系列抗生素

这项工作的目的是制造一种用带有头孢呋辛分子印迹的聚合物改性的压电传感器，用于随后在水溶液中测定头孢呋辛。在合成 MIP 时，我们使用了一种混合物，其中包含由 OJSC IIPP SPA Plastic（莫斯科）公司生产的 1,2,4,5-苯四甲酸和 4,4'-二氨基二苯氧化物的共聚物，以及一种含有模板分子的溶液。产生的混合物通过冲压被涂在传感器电极表面。然后在烘箱中进行热亚胺化。然后，将传感器冷却并放入蒸馏水中去除模板。制成的传感器可用于利用校准曲线测定水溶液中抗生素头孢呋辛的含量。为此，制备了浓度为 1.0101 1.0107 g/dm3 的头孢呋辛标准溶液。通过测量，我们得出结论：随着分析溶液中抗生素浓度的增加，共振频率会降低。校准关系是线性的。获得的传感器对头孢呋辛的检测限为 1.0105 g/dm3。为了测试基于带分子印记聚合物的传感器的选择性，对结构相似的抗生素头孢唑啉进行了分析。结果表明，该传感系统只对用于合成 MIP 的抗生素具有选择性。

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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Applied Information Aspects of Medicine (Prikladnye informacionnye aspekty mediciny)

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