Fluorescence polarization immunoassay for the determination and screening of medicines.

L. I. Mukhametova, S. A. Eremin
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Abstract

Modern clinical medicine with its achievements has helped a person to get rid of many infectious and non-communicable diseases, restore health, preserve and improve the quality of life of people with chronic dis- eases. Tens of thousands of medicines are used in medical practice. However, paradoxical as it sounds, having created medicines for almost all diseases, humanity has not become healthier and the need for medicines is only growing every year. More than 20 % of people receiving medications during therapy have various complications. Therefore, the search for medicines does not stop, but only increases at the present time. Another important problem is the detecting drugs in environmental objects and food products. Most drugs that get into wastewater from pharmaceutical factories and farms, even after treatment at wastewater treatment plants, are still diagnosed in the water. The method of fluorescence polarization is extremely widespread in clinical and biomedical fields. Thanks to the introduction into laboratory diagnostics of devices capable of measuring the signal of fluorescence polarization on microplates, polarization fluorescent analysis is used not only in the traditional format: the detection of drugs in human physiological fluids, environmental objects and food, but also in high-tech screening of drugs, significantly speeding up and facilitating the process of identifying new drugs.
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用于测定和筛选药物的荧光偏振免疫分析法。
现代临床医学的成就帮助人们摆脱了许多传染性和非传染性疾病,恢复了健康,保护并提高了慢性病患者的生活质量。医疗实践中使用的药物数以万计。然而,自相矛盾的是,人类创造了几乎治疗所有疾病的药物之后,却并没有变得更加健康,对药物的需求每年都在增长。超过 20% 的人在接受药物治疗期间会出现各种并发症。因此,目前对药物的需求不仅没有停止,反而有增无减。另一个重要问题是检测环境物体和食品中的药物。从制药厂和农场排入废水中的大多数药物,即使经过废水处理厂的处理,仍可在水中检测到。荧光偏振法在临床和生物医学领域应用极为广泛。由于实验室诊断中引入了能够在微孔板上测量荧光偏振信号的设备,偏振荧光分析不仅用于传统形式:检测人体体液、环境物体和食品中的药物,还用于高科技药物筛选,大大加快和促进了新药鉴定过程。
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