On the issue of experimental modeling of invasions and prospects for the use of immunostimulants in nematodes

封面

如何引用文章

全文:

详细

Currently, the search for ways to overcome drug resistance to anthelmintics is relevant. This problem is solved by limiting the duration of use of drugs with the same mechanism of action and combination of anthelmintics. The studies presented in the article have shown that the use of immunotropic drugs is also very promising.

Forty white mice and 20 white rats were used for experimental modeling of Trichinella spiralis and Trichinella nativa invasions. Changes in lymphoid tissue associated in the intestine, in the spleen, as well as in the peripheral blood of animals and birds during inoculation of the above species were studied. Further, the effect of drugs with immunotropic activity was studied on proven models of Trichinella spiralis invasions, for which 30 white mice (20.5±2.5 g) were used, which were randomized and divided into groups. The evaluation of the protective properties of immunotropic drugs in trichinosis was carried out on laboratory models to determine the survival rate in studies after euthanasia of all mice and counting the number of Trichinella larvae. Both experiments were conducted in accordance with the principles of the Helsinki Declaration. After removing laboratory animals from the experiment (in accordance with the principles of the above declaration), macro- and microanatomic studies and sampling of histological material (sets of intestines and spleens) were carried out for qualitative and quantitative assessment.

The above is confirmed by the fact that parasitological studies have established the high effectiveness of polyoxidonium in relation to the survival of Trichinella larvae, which was accompanied by an increase in the area of lymphoid tissue associated with the intestine and the white pulp of the spleen, in which lymphoid follicles grew. Thus, polyoxidonium is an effective drug that can be used in the complex treatment of nematodes as an immunotropic agent.

作者简介

O. Zhdanova

K. Scriabin All-Russian Scientific Research Institute of Fundamental and Applied Parasitology of Animals and Plants; Vyatka State Agrotechnological University

编辑信件的主要联系方式.
Email: Oliabio@yandex.ru

PhD, MD (Biology), Senior Research Associate, Laboratory of Parasitic Zoonoses; Professor, Department of Physiology

俄罗斯联邦, Moscow; Kirov

O. Andreianov

K. Scriabin All-Russian Scientific Research Institute of Fundamental and Applied Parasitology of Animals and Plants

Email: Oliabio@yandex.ru

PhD, MD (Veterinary Medicine), Leading Research Associate, Laboratory of Parasitic Zoonoses

俄罗斯联邦, Moscow

A. Martusevich

Vyatka State Agrotechnological University

Email: Oliabio@yandex.ru

PhD, MD (Biology), Leading Research Associate, Laboratory of Innovative Technologies of Food Production

俄罗斯联邦, Kirov

O. Chasovskich

Vyatka State Agrotechnological University

Email: Oliabio@yandex.ru

PhD (Veterinary Medicine), Head, Department of Physiology

俄罗斯联邦, Kirov

参考

  1. Автандилов Г.Г. Медицинская морфометрия: руководство. М.: Медицина, 1990. 384 с. [Avtandilov G.G. Medical morphometry: a guide]. Moscow: Meditsina, 1990. 384 p.
  2. Жданова О.Б., Руднева О.В., Написанова Л.А., Мутошвили Л.Р., Часовских О.В., Клюкина Е.С. Морфологические изменения в лимфоидной ткани, ассоциированной с кишечником у крыс при нематодозах // Морфология, 2020. Т. 157, № 2-3. С. 75-76. [Zhdanova O.B., Rudneva O.V., Napisanova L.A., Mutoshvili L.R., Chasovskikh O.V., Klyukina E.S. Morphological changes in lymphoid tissue associated with the intestine in rats with nematodes. Morfologiya = Morphology, 2020, Vol. 157, pp. 75-76. (In Russ.)]
  3. Калинникова Т.Б., Гайнутдинов М.Х., Шагидуллин Р.Р. Устойчивость к антигельминтным препаратам: проблема и пути ее решения // Ветеринарный врач, 2018. № 5. С. 36-41. [Kalinnikova T.B., Gainutdinov M.H., Shagidullin R.R. Resistance to anthelmintic drugs: a problem and ways to solve it. Veterinarnyy vrach = Veterinarian, 2018, no. 5, pp. 36-41. (In Russ.)]
  4. Мартусевич А.K., Жданова О.Б. Информативность исследования свободного кристаллообразования при зоонозах на модели лабораторных животных // Известия высших учебных заведений. Поволжский регион, 2006. № 1 (22). С. 30-39. [Martusevich A.K., Zhdanova O.B. Informativeness of the study of free crystal formation in zoonoses on the model of laboratory animals. Izvestiya vysshikh uchebnykh zavedeniy. Povolzhskiy region = News of Higher Educational Institutions. The Volga Region, 2006, no. 1, pp. 30-39. (In Russ.)]
  5. Руднева О.В., Жданова О.Б., Клюкина Е.С., Написанова Л.А., Мутошвили Л.Р. Влияние комплексного иммунопрепарата на лимфоидную ткань, ассоциированную со слизистой оболочкой кишечника // Морфология, 2019. Т. 155. № 2. С. 243-244. [Rudneva O.V., Zhdanova O.B., Klyukina E.S., Pisanova L.A., Mutoshvili L.R. The effect of a complex immunopreparation on lymphoid tissue associated with the intestinal mucosa. Morfologiya = Morphology, 2019, no. 2, pp. 243-244. (In Russ.)]
  6. Сапин М.Р., Никитюк Д.Б. Иммунная система, стресс и иммунодефицит. М.: Джангар, 2000. 184 с. [Sapin M.R., Nikityuk D.B. Immune system, stress and immunodeficiency]. Moscow: Dzhangar, 2000. 184 p.
  7. Сапроненков П.М. Иммунология желудочно-кишечного тракта. Л., 1987. 159 с. [Sapronenkov P.M. Immunology of the gastrointestinal tract]. Leningrad, 1987. 159 p.
  8. Успенский А.В., Жданова О.Б., Андреянов О.Н., Написанова Л.А., Малышева Н.С. Трихинеллоскопия туш домашних и диких животных // Российский паразитологический журнал, 2021. Т. 15, № 3. С. 71-75. [Uspensky A.V., Zhdanova O.B., Andreyanov O.N., Pisanova L.A., Malysheva N.S. Trichinelloscopy of carcasses of domestic and wild animals. Rossiyskiy parazitologicheskiy zhurnal = Russian Parasitological Journal, 2021, no. 3, pp. 71-75. (In Russ.)]
  9. Mestecky J. The common mucosal immune system and current strategies for induction of immune responses in external secretions. Clin. Immunol., 1987, Vol. 7, pp. 265-276.
  10. Owen R.L., Piazza A.J., Ermak T.H. Ultrastructural and cytoarchitectural features of lymphoreticular organs in the colon and rectum of adult BALB/c mice. Am. J. Anat., 1991, Vol. 190, pp. 10-18.
  11. Tahoun A., Mahajan S., Paxton E., Malterer G., Donaldson D.S., Wang D., Tan A, Gillespie T.L., O’Shea M., Roe A.J., Shaw D.J., Gally D.L., Lengeling A., Mabbott N.A., Haas J., Mahajan A. Salmonella transforms follicle-associated epithelial cells into M cells to promote intestinal invasion. Cell Host Microbe, 2012, Vol. 12, no. 5, pp. 645-656.
  12. Terahara K., Yoshida M., Igarashi O., Nochi T., Pontes G.S., Hase K., Ohno H., Kurokawa S., Mejima M., Takayama N., Yuki Y., Lowe A.W., Kiyono H. Comprehensive gene expression profiling of Peyer’s patch M cells, villous M-like cells, and intestinal epithelial cells. J. Immunol., 2008, Vol. 180, no. 12, pp. 7840-7846.
  13. Rudneva O.V., Napisanova L.A., Zhdanova O.B., Berezhko V.K. Evaluation of the protective activity of different immunostimulatory drugs at the experimental trichinosis on white mice. Int. J. High Dilution Res., 2018, Vol. 17, no. 2, pp. 17-18.
  14. Zhdanova O.B., Rudneva O.V., Akulinina Yu.K., Napisanova L.A. Еvaluation of the effectiveness of different immunostimulatory medicine at the experimental trichinosis and leishmaniosis on white mice. Int. J. High Dilution Res., 2019, Vol. 18, no. 2, p. 12.
  15. World Medical Association Declaration of Helsinki: ethical principles for medical research involving human subjects. General Assembly of the World Medical Association-2014 Summer, Vol. 81, no. 3, pp. 14-18.

版权所有 © Жданова О., Андреянов О., Мартусевич А., Часовских О., 2024

Creative Commons License
此作品已接受知识共享署名 4.0国际许可协议的许可
##common.cookie##