М. С. Степанков scite author profile

М. С. Степанков

2Publications

10Citation Statements Received

0Citation Statements Given

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Affiliations

Federal Scientific Center for Medical and Preventive Health Risk Management Technologies, Solikamsk State Pedagogical Institute, Moscow Power Engineering Institute

Publications

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Scientific Forecasting of Toxicity and Evaluation of Hazard Potential of Aluminum Oxide Nanoparticles for Human Health

Zaitseva

Землянова

Степанков

et al. 2018

Ekologiya cheloveka (Human Ecology)

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Aim: scientific forecasting toxicity and evaluation potential hazard of the biological action of aluminum oxide nanoparticles for human health. Methods: forecasting toxicity and assessment of potential hazards was carried out according to the results of forecasting-analytical modeling complexes of indicators characterizing physico-chemical, molecular biological, biochemical, cytological and ecological properties with calculation coefficients of hazard (D) and incompleteness of data evaluation (U) of nanoscale aluminum. Own research on the establishment of size and shape of nanomaterial were performed using dynamic laser light scattering and scanning electron microscopy, specific surface area were determined by the method of Brunauer, Emmet and Taylor. Results: aluminum oxide nanoparticles have a size of 30-40 nm, specific surface area 113 m2/g insoluble in water, superhydrophobic, have an effective positive charge. They are have the ability to generate reactive oxygen, damage DNA, disrupt protein expression, depolarize cell membrane, cause morphological changes and cell death, disturb the mitochondrial metabolism, impact on proteomic and metabolic profiles, inducing pro-inflammatory cytokine interleikin-1, ß, tumor necrosis factor and cluster of differentiation 86, 80 and 40. Besides, the material under investigation has such long-term effects of aaction: carcinogenicity and immunotoxicity. Conclusions: based on the results of forecasting modeling, established: aluminum oxide nanoparticles have a high degree of potential hazard for human health (coefficient D = 2,202 that is included in the range 1,780-2,449 and correspond to a high degree of potential hazard). The results indicate necessity for toxicological studies and preparation toxicological-hygienic characteristics of aluminum oxide nanoparticles at various routes of intake for development of effective preventive measures of negative impact on workers and consumers in contact with nanoproducts.

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ESTIMATION OF THE RESPONSE OF RESPIRATORY TRACTS TO A SINGLE INTRA-TRACHEAL INTRODUCTION Of NANO- AND MICRO-SIZED PARTICLES OF ALUMINUM OXIDE

Землянова

Zaitseva

Игнатова

et al. 2019

jour

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Introduction. Nanomaterials are now widely used in science and in various industries; in relation to that, it is truly vital to perform hygienic research to assess exposure to ultra-disperse particles with carcinogenic effects on a human body as such research can help to solve tasks in the preventive medicine sphere. Data and methods. The experiment was performed on 27 pubescent male Wistar rats (9 animals in each group); the animals were exposed to a single intra-tracheal introduction of suspensions that contained nano-sized and micro-sized aluminum oxide in concentrations of 80.0 ± 0.09 mg/ml. The reference group was exposed to a pure suspension (sterile isotonic saline). To quantitatively assess cellular responses in the respiratory tracts, the authors examined digital images of smears obtained via optical immersion microscopy with a polarizing microscope. Results. Cytological assessment of bronchi-alveolar lavage in vitro revealed exposure to nano-particles of aluminum oxide to led to a cellular response as of eosinophilic type; exposure to micro-particles of aluminum oxide, as of neutrophilic type. The authors proposed a model that described a relationship between a number of eosinophils and neutrophilic leucocytes in bronchi-alveolar lavage and a surface area of aluminum oxide particles; basing on the model, they detected a trigger value; when obtained values are higher than it eosinophilic responses occurs, and when they are lower, a lymphocytic one. The authors also showed that exposure to nano- and micro-sized particles of aluminum oxide resulted in damage to alveolar macrophages surface; the degree of the damage depended on a specific surface area of particles. The obtained data enrich theoretical knowledge accumulated in nanotoxicology and allow to develop etiologically and pathogenetically grounded preventive activities for workers employed at nanomaterials productions and for people who consume products containing nano-sized particles of aluminum oxide. Discussion. The authors performed the comparative assessment of responses that occurred in the respiratory tracts of Wistar rats as a response to a single intra-tracheal introduction of micro- and nano-sized particles of aluminum oxide; the assessment results were then summarized and their generalization revealed toxic effects to be produced by the particles depended on their dispersity. The obtained data are well in line with an opinion expressed by some authors that a dispersity factor tends to grow as particles become smaller in their size. Another outcome here could be their greater toxic properties that cause various qualitative and quantitative cytological changes in biological substrates, including bronchi-alveolar lavage. Conclusions. A single intra-tracheal introduction of a water suspension containing aluminum oxide into Wistar rats causes cellular responses in the respiratory tracts and damage to alveolar macrophages. Character and intensity of detected changes depend on the total specific surface area of effecting particles.

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