Oleksandr Sofronov scite author profile

Oleksandr Sofronov

2Publications

21Citation Statements Received

0Citation Statements Given

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Affiliations

Irkutsk State Medical University, Observatoire de la Côte d’Azur, Université Côte d'Azur

Publications

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Polyethyleneimine methylphosphonate: towards the design of a new class of macromolecular actinide chelating agents in the case of human exposition

et al. 2017

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The use of uranium and to a minor extent plutonium as fuel for nuclear energy production or as components in military applications is under increasing public pressure. Uranium is weakly radioactive in its natural isotopy but its chemical toxicity, combined with its large scale industrial utilization, makes it a source of concern in terms of health impact for workers and possibly the general population. Plutonium is an artificial element that exhibits both chemical and radiological toxicities. So far, uranium (under its form uranyl, U(vi)) or plutonium (as Pu(iv)) decorporation or protecting strategies based on molecular design have been of limited efficiency to remove the actinide once incorporated after human exposure. In all cases, after human exposure, plutonium and uranium are retained in main target organs (liver, kidneys) as well as skeleton although they exhibit differences in their biodistribution. Polymers could represent an alternative strategy as their tropism for specific target organs has been reported. We recently reported on the complexation properties of methylcarboxylated polyethyleneimine (PEI-MC) with uranyl. In this report we extend our work to methylphosphonated polyethyleneimine (PEI-MP) and to the comparison between actinide oxidation states +IV (thorium) and +VI (uranyl). As a first step, thorium (Th(iv)) was used as a chemical surrogate of plutonium because of the difficulty in handling the latter in the laboratory. For both cations, U(vi) and Th(iv), the uptake curve of PEI-MP was recorded. The functionalized PEI-MP exhibits a maximum loading capacity comprised of between 0.56 and 0.80 mg of uranium (elemental) and 0.15-0.20 mg of thorium (elemental) per milligram of PEI-MP. Complexation sites of U(vi) and Th(iv) under model conditions close to physiological pH were then characterized with a combination of Fourier transform Infra Red (FT-IR) and Extended X-Ray Absorption Fine Structure (EXAFS). Although both cations exhibit different coordination modes, similar structural parameters with phosphonate functions were obtained. For example, the coordination sites are composed of fully monodentate phosphonate functions of the polymer chains. These physical chemical data represent a necessary basic chemistry approach before envisioning further biological evaluations of PEI-MP polymers towards U(vi) and Pu/Th(iv) contamination.

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The Efficiency of Management by Objectives Planning to Support Sanitary Epidemiological Well-Being of Population and Defense of Rights of Consumers in the Federal Subject

Gaydarov

Alekseevskaya

Sofronov

2019

jour

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The article analyzes efficiency of management by objectives planning in supporting sanitary epidemiological well-being of population and defense of rights of consumers in the subject of the Russian Federation. Within the framework of this analysis a characteristic is given concerning supporting sanitary epidemiological well-being of population and defense of rights of consumers according sectoral target programs in the subject of the Russian Federation. The results of analysis of social economic efficiency of management by objectives are presented. The sociological survey is implemented concerning issues of quality and accessibility of public services provided by Rospotrebnadzor and effective management of sanitary epidemiological well-being of population. The originally elaborated technique of evaluation of efficiency of management by objectives is presented within the framework of achieving strategic targets of Rospotrebnadzor in the subject of the Russian Federation.

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