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Ministry of Health and Social Development of the Russian Federation State Educational Institution Of Higher Professional Education Saratov State Medical University named after V.I. Razumovsky

Ministry of Health and Social Development of the Russian Federation

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Page 1: Ministry of Health and Social Development of the Russian Federation

Ministry of Health and Social Development of the Russian FederationState Educational Institution Of Higher Professional EducationSaratov State Medical University named after V.I. Razumovsky

Page 2: Ministry of Health and Social Development of the Russian Federation

Authors’ of research

Saratov State Medical University n.a. V.I. RazumovskyN.A. Navolokin, A.B. Bucharskya, G.N. Maslyakova, Saratov State UniversityD.A. Gorin D.A., S.V. German

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Actuality of research• Nanoparticles become widespread in the

environment and ingest by breathing, with food, through the skin and by intravenous administration (Oberdörster G. et al., 2005).

• Nanoparticles can have adverse health effects (Seaton A., Donaldson K., 2005; Shvedova AA, Kisin ER, 2005).

• Medical products with nanomaterials can be dangerous for the healths (Peters K., Unger RE, 2004).

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• The medical results often are ignored if they testify to the toxicity of nanomaterials used in medicine (Moghimi SM et al., 2005).

• Scientific works about toxicity of nanoparticles by morphological methods are rare in the literature.

Page 5: Ministry of Health and Social Development of the Russian Federation

The purpose of the study

to investigate the morphological changes in organs

and transplanted tumors of laboratory animals with parenteral

methods of administration Fe nanoparticles.

Page 6: Ministry of Health and Social Development of the Russian Federation

Materials and methods• Fe nanoparticles (20 nm ± 10) Zp = 30 mv covered

by citrate shell • White outbred male rats• Transplanted tumor of liver cancer PC-1• Morphological methods: Standard hematoxylin-

eosin, histochemical techniques• MRI

Page 7: Ministry of Health and Social Development of the Russian Federation

Design of experimentWhite outbred half-year-old male rats inoculated with liver cancer PC-1, citrate

coated iron nanoparticles (Fe3O4, 20 nm ± 10), Zp = -30 mv, were used in the study.

Animal experiments were performed in accordance with the guidance «International

Guiding principles for Biomedical Research Involving Animals» (2012). Animals with

tumor transplanted liver cancer PC-1 were divided into 3 groups (10 rats were in each

group). In the first group the nanoparticle solution was administered once

intravenously at a dosage of 0.2 mg / kg; in the second group the nanoparticle solution

was administered in a dosage of 16 mg/kg. The third group (comparison group)

received a single intravenous injection of 1 ml saline.

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Parenteral administration

Liver Spleen

BrainHeart

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The increase of liver and kidney weight was observed macroscopically after administration of Fe nanoparticles, due to the higher degree of venous congestion, the development of vascular and degenerative processes in hepatocytes and epithelial cells of the convoluted tubules. Dystrophic and necrotic processes may depend on disturbance of blood circulation due circulation of iron nanoparticles in the lumen of blood vessels, and due to the toxic influence of the tumor itself . Accumulations of iron nanoparticles and hemosiderin were not found by this method and the duration of administration.

Administration of Fe nanoparticles: results

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Morphological changes in the tumor and MRT

Page 11: Ministry of Health and Social Development of the Russian Federation

• Statistically significant thinning of interalveolar septa and emphysema with increasing blood supply vessels were occured in the lungs. Clusters of nanoparticles were not revealed, but a significant increase in the area of peribronchial lymphoid infiltrates was noted, which indicates body’s immune response to the introduction of foreign particles.

• The prevalence of predominance full-blooded pulp compared over white pulp was noted in spleen after intravenous administration. The bright active centers were detected in follicules, which indicated the activation of B-lymphocytes differenciation and their blast-transformation. A statistically significant increase in the thickness of the mantle zone was observed indicating the increasing in cooperation of T- and B-lymphocyte and accumulation of B-lymphocytes of memory. Thus, the citrate stabilized nanoparticles of iron causes the immune stimulation in spleen.

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Morphometric changes in organs at intravenous administration of iron nanoparticles

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ConclusionsThe intravenous administration of citrate - stabilized iron nanoparticles in a dosage of 20 mkg/kg leads to disruption of blood supply to the organs, mainly due to the plethora, while marked dystrophic cell damage is observed in two main detoxification organs: in the liver and kidneys. The immunostimulatory effects of iron on the white pulp of the spleen and peribronchial lymphoid follicles were established. Particles were detected in the heart and brain, and their accumulation in the tumor was significantly noted. This data indicates that the selected dose is sufficient for accumulation of the iron nanoparticles in tumor.

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