微波介电计在水中抗生素浓度控制中的应用

Z. Eremenko, V. Pashynska, K. Kuznetsova, O. Shubnyi, N. Sklyar, A. Martynov
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引用次数: 3

摘要

主题和目的。本研究的重点是设计用于在微波范围内测量高损耗液体的复杂介电常数的原始波导差分介电计,以确定室温下水溶液中药物成分的浓度。在广泛的浓度范围内,对诸如林可霉素和左氧氟沙星等药物成分测试了该装置的适用性和电介质测量方法的有效性。方法和方法论。该方法的主要思想是由HE11波通过波导差分介电计的两个测量单元后的幅值和相移差得到HE11波的复传播系数。结果。我们已经证明,所提出的电介质计方法可以通过测量波衰减和相移差来实时测定水溶液中的药物成分浓度。我们发现,除非药物成分的浓度很低,否则水溶液中很少有游离水分子与药物成分结合。随着药物成分浓度的升高,溶液中游离水分子的数量减少。结论。本研究证实,电介质法和所研制的装置可有效地测定水溶液中药物成分的浓度。
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Microwave dielectrometer application to antibiotic concentration control in water solution
Subject and Purpose. This study focuses on the original waveguide-differential dielectrometer designed for complex permittivity measurements of high-loss liquids in the microwave range towards the determination of pharmaceutical ingredient concentrations in water solutions at room temperature. The suitability of the device and effectiveness of the dielectrometry method are tested on such pharmaceutical ingredients as lincomycin and levofloxacin over a wide range of concentrations. Methods and Methodology. The main idea of the method consists in that the complex propagation coefficients of the HE11 wave are obtained from the amplitude and phase shift differences acquired by the wave after it has passed through the two measuring cells of the waveguide-differential dielectrometer. Results. We have shown that the proposed dielectometry method allows a real-time determination of pharmaceutical ingredient concentrations in water solution by measuring the wave attenuation and phase shift differences. We have found that unless concentrations of pharmaceutical ingredients are low, few free water molecules in water solution are bound to the pharmaceutical ingredients. The number of free water molecules in solution decreases as the concentration of pharmaceutical ingredients rises. Conclusion. The current study confirms that the dielectometry method and the device developed provide effective determination of pharmaceutical ingredient concentrations in water solutions.
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