毒物代谢组学-预防和分析毒理学的整合

A. Radilov, A. Ukolov
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引用次数: 1

摘要

介绍。本文考虑了基于毒物动力学模型的发展的各个方面,该模型用于缩放空气中有毒化合物的极限浓度,估计其物质累积系数,以及估计生物控制过程中预期的生物介质中有毒物质的浓度。以有机磷农药(OP)和挥发性工业污染物(VIP)为例,给出了模型的检验结果。材料和方法。中毒实验模型选用Rappolovo苗圃获得的雄性栗鼠家兔。从耳缘静脉采血。对于生物样品中OP和VIP的高灵敏度测定,采用了先前开发的高灵敏度气相色谱技术。采用双室模型计算毒理动力学参数。结果。提出了一种基于毒物动力学的模型,用于计算空气中有毒化合物的极限浓度,估计其物质累积系数,以及估计生物控制过程中预期的生物介质中有毒物质的浓度。研究的局限性。本文提出的毒代动力学参数标度算法适用于化合物对动物和人体的生物利用度接近,以及毒代动力学曲线下的面积与剂量接近线性依赖的情况。结论。利用提出的毒物动力学模型来确定阈值浓度,对OP和VIP工作区域和大气中的生物控制化学分析方法提出了建议。
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Toxicometabolomics — integration of preventive and analytical toxicology
Introduction. This paper considers aspects of the development of a toxicokinetically based model for scaling the limit concentrations of toxic compounds in the air, estimating the coefficients of their material cumulation, as well as estimating the concentrations of toxicants in biological media expected in the course of biological control. The results of testing the model on the example of organophosphorus pesticides (OP) and volatile industrial pollutants (VIP) are presented. Material and methods. For experimental modeling of intoxication, male chinchilla rabbits obtained from the Rappolovo nursery were used. Blood sampling was carried out from the marginal vein of the ear. For the highly sensitive determination of OP and VIP in biological samples, previously developed highly sensitive gas chromatographic techniques were used. Calculation of toxicokinetic parameters was made using a two-compartment model. Results. A toxicokinetically based model for scaling the limit concentrations of toxic compounds in the air, estimating the coefficients of their material cumulation, and estimating the concentrations of toxicants in biological media expected in the course of biological control is proposed. Research limitations. The proposed algorithm for scaling toxicokinetic parameters can be applied under the condition that the bioavailability of chemical compounds for the animal and human body is close, as well as the area under the toxicokinetic curve that is close to a linear dependence on the dose. Conclusion. Using the proposed toxicokinetically substantiated model for scaling the threshold concentrations, recommendations were made on chemical-analytical methods of biological control in the working area and atmospheric air for OP and VIP.
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