Uppermolecule complexes of oxide nanostructures and albumins formation. Rutberg, P., Kolikov, V., Snetov, V., Stogov, A., Noskin, L., Landa, S., Arutjunan, A., Egorov, V., & Sirotkin, A. High Temperature Material Processes, 13(3-4):325-334, Begell House Inc., 2009. cited By 1![Uppermolecule complexes of oxide nanostructures and albumins formation [link]](https://bibbase.org/img/filetypes/link.svg "link")
Paper doi abstract bibtex Possible employment of oxide nanostructures in medicine demands elucidation of their negative effects on various systems of a human organism. In particular, in this paper the experimental results of investigation of interaction of Ag, Cu, Fe, and Pt nanostructures water dispersions (NWD), which were produced by means the treatment of water by pulsed electric discharges (PED), with serum of human blood (HBS), are presented. The goal of the investigation was to determine connection between the properties of the nanostructures and peculiarities of their interactions with the human blood serum (HBS) as highly concentrated solutions of macromolecules. It was found that albuminous and lipoprotein structures of HBS are agglutinated on surface of the nanoparticles, forming upper molecule complexes. Thus, the higher the concentration of nanoparticles in joint dispersion is, the larger complexes are formed. At early stages of the process rather small complexes of albuminous and immunoglobulins are formed, then lipoproteins are agglutinated, and finally, large complexes of hydrodynamic radius (Rh) more than 2 m are formed.
@ARTICLE{Rutberg2009325,
author={Rutberg, P.G. and Kolikov, V. and Snetov, V. and Stogov, A. and Noskin, L. and Landa, S. and Arutjunan, A. and Egorov, V. and Sirotkin, A.},
title={Uppermolecule complexes of oxide nanostructures and albumins formation},
journal={High Temperature Material Processes},
year={2009},
volume={13},
number={3-4},
pages={325-334},
doi={10.1615/HighTempMatProc.v13.i3-4.60},
note={cited By 1},
url={https://www.scopus.com/inward/record.uri?eid=2-s2.0-76649096972&doi=10.1615%2fHighTempMatProc.v13.i3-4.60&partnerID=40&md5=b13904e357dc4fcc8c145fa052c1ea10},
affiliation={Institute for Electrophysics and Electric Power Russian Academy of Sciences (IEE RAS), Dvortsovaya nab. 18, 191186 St.-Petersburg, Russian Federation; Institute for Nuclear Physics Russian Academy of Science, 188300 Gatchina, Russian Federation; Institute for Nuclear Physics Russian Academy of Science, Gatchina; Unstitute for Influenza Russian Academy of Medicine Science, 197376, prof. Popov st. 15, St. Petersburg, Russian Federation},
abstract={Possible employment of oxide nanostructures in medicine demands elucidation of their negative effects on various systems of a human organism. In particular, in this paper the experimental results of investigation of interaction of Ag, Cu, Fe, and Pt nanostructures water dispersions (NWD), which were produced by means the treatment of water by pulsed electric discharges (PED), with serum of human blood (HBS), are presented. The goal of the investigation was to determine connection between the properties of the nanostructures and peculiarities of their interactions with the human blood serum (HBS) as highly concentrated solutions of macromolecules. It was found that albuminous and lipoprotein structures of HBS are agglutinated on surface of the nanoparticles, forming upper molecule complexes. Thus, the higher the concentration of nanoparticles in joint dispersion is, the larger complexes are formed. At early stages of the process rather small complexes of albuminous and immunoglobulins are formed, then lipoproteins are agglutinated, and finally, large complexes of hydrodynamic radius (Rh) more than 2 m are formed.},
author_keywords={Ag; Cu; Fe; Human blood serum (HBS); Nanoparticles; Nanostructures; Pt},
correspondence_address1={Rutberg, P. G.; Institute for Electrophysics and Electric Power Russian Academy of Sciences (IEE RAS), Dvortsovaya nab. 18, 191186 St.-Petersburg, Russian Federation},
publisher={Begell House Inc.},
issn={10933611},
language={English},
abbrev_source_title={High Temp. Mater. Processes},
document_type={Article},
source={Scopus},
}
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