employee
GRNTI 34.49 Радиационная биология
Purpose: Testing of vitamin preparations as a means of prophylaxis long-term effects of destruction of incorporated radionuclides. Analysis of experimental material about the influence of L-ascorbic acid, retinol palmitate and β-carotene on the long-term effects inside the lungs of incorporation dioxide plutonium-239. Material and methods: The studies were performed on 628 white nonlinear male rats. Plutonium dioxide was administered to white nonlinear male rats once intratracheally in the amount of 100 kBq/kg body weight. The diet was enriched by L-ascorbic acid, retinol palmitate or synthetic β-carotene. The analysis of pathological effects inside the lungs of incorporation of the plutonium dioxide was carried out by groups formed based on individual absorbed doses in the range of their geometric means between 32 and 212 Gy. Test animals were observed for life. Radiometric, histological and statistical methods were used. Indicators of the pathology of the organ of respiration were inflammatory, sclerotic, premalignant and malignant changes in the lungs. Indicators of breathing pathology: inflammatory, sclerotic, premalignant and malignant changes in the lungs are quantified. Results: Long-term consumption of vitamins C, A and β-carotene in intact rats did not affect the life span of animals and the total frequency of the identified types of lung cancer. We found a significant increase in the frequency of pneumosclerosis in groups of rats received vitamin A (27 %) or β-carotene (29 %) compared with intact animals (11 %). Multidirectional effect of vitamins A, C and β-carotene on selected indicators of long-term effects inside the lungs of incorporation 239PuO2 has been marked. Vitamin A and β-carotene intensified the sclerotic processes in the organ of respiration, and vitamin A largely (67 %) than β-carotene (57 %) with 46 % in controls. When enriching the ration of animals with the studied vitamin preparations, the regularity of increasing the number of rats with tumors localized in the lungs was preserved. Both positive and negative influence on radiation carcinogenesis and the lack of effect depending on the absorbed dose was noted. With the increase of absorbed dose from 32 to 212 Gy not only the frequency but also the spectrum of tumors localized in the lungs has varied. Against the background of increasing the total number of tumors has increased the number of rats with tumors of epithelial origin and decreased with gematosarcoma. No effect is investigated vitamin preparations on the metabolism of plutonium dioxide-239 installed. Consumption of the studied drugs did not affect the lifespan of rats with intra-lungs the introduction of dioxide of plutonium-239 and the process of formation of absorbed doses in the lungs. Conclusions: Vitamin A and β-carotene stimulate the development of pulmonary fibrosis in rats of intact and affected 239PuO2 ones. The result of the use of vitamins A, C and β-carotene showed the different (positive and negative) effect on the formation of lung tumors induced 239PuO2 in various ranges of absorbed doses. In the studied forms, doses and schemes assign vitamins A, C and β-carotene cannot be recommended for the prevention of spontaneous and 239PuO2-induced pathological changes in the lung.
plutonium-239 dioxide, intratracheal administration, rats, lungs, long-term effects, vitamin C, vitamin A, beta-carotene
Основным путем снижения риска ранних и отдаленных последствий воздействия на организм радио- активных веществ остается ускорение их выведения из органов и тканей, в результате чего достигается снижение поглощенных радиационных доз. До настоящего времени в арсенале медицины отсутствуют эффективные средства и способы ускорения выведения из организма ряда труднорастворимых радиоактивных соединений (в т.ч. 239PuО2).
1. Belyaev IK. Assessment and correction of C-vitamin status in the problem of experimental modification of the long-term consequences of radiation effects. Radiobiology. 1991;31(6): 819-823. (In Russ.).
2. Kondrusev AI, Spirichev VB, Chertkov KS, Rymanenko TV. Vitamins and ionizing radiation (Review). Chem Farm J. 1990;(1):4-12. (In Russ.).
3. Burlakova EB, Alekseenko AV, Molochkina EM, et al. Bioantioxidants in radiation damage and malignant growth. Moscow: Science. 1975. 211 p. (In Russ.).
4. Kondrusev AI, Spirichev VB, Chertkov KS, Rymarenko TV. Vitamins and ionizing radiation (Review Part II). Chem Farm J. 1990;(2):4-11. (In Russ.).
5. Belyaev IK, Zhorova ES, Zalikin GA, et al. Problems of beta-carotene modification of radiation carcinogenesis in the experiment // In collection. “Problems of the normalization of ionizing radiation under the influence of modifying factors”. In: Buldakova and S Calistratova. – Moscow: MZ RF Institute of Biophysics. 1991:142-151. (In Russ.).
6. Omenn G, Goodman G, Thornquist M, et al. Risk Factors for Lung Cancer and for Intervention Effects in CARET, the Beta-carotene and Retinol Efficacy Trial. J. Natl. Cancer Institute. 1996;88:1550-1559. DOI:
7. Rapola J, Virtamo J, Ripatti S, et al. Randomized Trial of Alpha-tocopherol and Beta-carotene Supplements on Incidence of Major Coronary Events in Men with Previous Myocardial Infarction. Lancet. 1997;349:1715-1720.
8. Belyaev IK, Zhorova ES, Zaraisky AV. Modifying Effects of Nonspecific Protection Means in the Problem of Prevention of Long-Term Effects of Radiation Effects. I All-Union Symposium “Molecular Cell Mechanisms of Chronic (External and Internal) Action of Ionizing Radiations on Biological Systems” December 3-6, 1990 Pushchino. 1990:20-21. (In Russ.).
9. Belyaev IK, Zhorova ES, Ilyin LA. Synthetic beta-carotene modification of the long-term effects of 90Sr incorporation. Radiobiological Congress, Kiev, September 20-25, 1993. Abstracts. Pushchino. 1993:101-102. (In Russ.).
10. Zhorova ES, Belyaev IK, Nisimov PG. Carotinyl modification of blastomogenesis induced by incorporation of Pu-238 . Radiobiological congress, Kiev, September 20-25, 1993. Abstracts. Pushchino. 1993:359-360. (In Russ.).
11. Kalistratova VS, Ivanov AA, Pomerantseva M, et al. Modification of the long-term consequences caused by the incorporation of 131I, 137Cs, 238Pu with food additives. «Radionuclide pollution of the environment and public health». Ed. I.Ya. Vasilenko and L.A. Buldakova. M.: Medicine. 2004:155-165. (In Russ.).
12. Kalistratova VS, Belyaev IK, Zhorova ES, et al. Prophylaxis of radiation and chemical carcinogenesis with the help of vitamin A and its precursor beta-carotene (Expert and clinical studies). Med. Rad. and Rad. Safety. 2015;60(3):65-78. (In Russ.).
13. Belyaev IK, Elatontseva NB, Zaraisky AV, Popov BA. Quantitative patterns of the model of intratracheal administration in the experiment. Radiobiology. 1988;28(3):396-400. (In Russ.).
14. Mashkovsky MD. Medicinal products. M.: Medicine. 2011. 1216 p. (In Russ.).
15. Sanders CL, Dagle GE., Cannon WC, et al. Inhalation Carcinogenesis of High-Fired 239PuO2 in Rats. Radiat. Res. 1976;68(2):349-360.
16. Sanders L, Mahaffey JA. Action of vitamin C on Pulmonary Carcinogenesis from Inhaled 239PuO2 . Health Phys. 1983;45(3):794-798.
17. Lakin GF. Biometrics. M.: High school. 1980. 293 p. (In Russ.).
18. Maleta YuS, Tarasov VV. Mathematical methods of statistical analysis in biology and medicine. - Moscow: Izd-vo Mosk. Un-ta. 1981. 176 p. (In Russ.).
19. Maleta YuS, Tarasov VV. Nonparametric methods of statistical analysis in biology and medicine. Moscow: Izd-vo Mosk. Un-ta. 1982. 178 p. (In Russ.).
20. Belyaev IK, Samoilov AS, Zhorova ES, et al. Plutonium dioxide-239 in the lungs. Message 1: Metabolism 239PuO2 with intratracheal introduction. Med. rad. and rad. safety. 2017;62(1):12-19. (In Russ.). DOI: 10.12737/25029
21. Lemberg VK, Kirillova EN, Rogacheva SA, et al. Prophylactic antitumor and radioprotective action of beta-carotene // In collection. «Problems of the normalization of ionizing radiation under the influence of modifying factors». Ed. L.A. Buldakova and V.S. Calistratova. Moscow: MZ RF Institute of Biophysics. 1991:127-130. (In Russ.).
22. Belyaev IK, Zhuravlev VF, Stepanov SV, Zaraisky AV. Radioprotective efficiency of carotinil with external and internal acute irradiation. Radiobiology. 1992;32(1):121-125. (In Russ.).
23. Kalistratova VS, Tishchenko GS, Pavlenko-Mikhailov YuN. The importance of the age factor in the development of methods for preventing long-term consequences caused by radioactive 131I with beta-carotene. Radiobiological Congress, Kiev. September 20-25, 1993 Abstracts. Pushchino. 1993:430-431. (In Russ.).
24. Belyaev IK, Zaraisky AV, Vakulova LA, et al. Prophylaxis of beta-carotene radiation (90Sr) gonad lesions. In the book. “Problems of the normalization of ionizing radiation under the influence of modifying factors”. Ed. LA Buldakova, VS Calistratova. M.; MZ RF Institute of Biophysics. 1991:151-159. (In Russ.).
25. Plavinsky SL, Plavinskaya SI. The role of antioxidants in the treatment and prevention of human diseases. Medicine. 2013;(1):41-54. (In Russ.).
26. Shashkina MYa, Sergeev AV, Sergeeva TI, et al. Vitamin means for increasing the natural resistance of the body and preventing cancer. Application: 93037029/14, July 21, 1993. Published: 10.04.1997. (In Russ.).