Мorphofunctional state of structural elements and hemomicrocirculatory bed in the red bone marrow in rats at a single subcutaneous injection of the cryopreserved placenta


  • N.V. Boruta
Keywords: red bone marrow, erythroblast islet, hemomicrocirculatory channel, cryopreserved placenta.

Abstract

The paper deals with changes of the reactive links of the hemocirculatory bed in the red bone marrow of rats and cellular elements of the erythroblast islet which were studied at a single subcutaneous injection of the cryopreserved placenta. It has been established that single administration of placental tissue influences red bone marrow by dynamic changes, namely, by enhanced erythropoiesis, as a result of which the number of erythroblast-islet cells increases at different stages of maturation, with the predominance of basophilic and oxyphilic erythroblasts. The influence of the placenta on the elements of the hemomicrocirculatory bed is characterized with a reliable expansion or narrowing of their mean diameters, especially in the early stages of the experiment.

References

1. Gavrilov, O. K., Kozinec, G. I. & Chernyak, N. B. (1985). Kletki kostnogo mozga i perifericheskoj krovi. Moskva: Medicina. [in Russian].

2. Horalskyi, L. P. Khomych, V. T. & Kononskyi, O. I. (2011). Osnovy histolohichnoi tekhniky i morfofunktsionalni metody doslidzhen u normi ta pry patolohii. Zhytomyr: Polissia. [in Ukrainian].

3. Grishenko, V. I. & Yurchenko, T. N. (Red.). (2011). Placenta: kriokonservirovanie, struktura, svojstva i perspektivy klinicheskogo primeneniya. Harkov: SPD FL Brovin A.V. [in Russian].

4. Bilash, S. M. (2013). Kharakterystyka metrychnykh pokaznykiv strukturnykh elementiv kardialnykh zaloz shlunku intaktnykh shchuriv, pry hostromu hastryti, vvedenni preparatu «Plateks-platsentarnyi» ta yikh poiednanoiu diieiu. Visnyk problem biolohii i medytsyny, 2(95), 3, 153–155. [in Ukrainian].

5. Bilash, S. M. (2013). Vplyv kriokonservovanoi platsenty na morfofunktsionalnyi stan ekzokrynotsytiv vorotarnykh zaloz shlunka pry zapalnykh protsesakh. Visnyk problem biolohii i medytsyny, 2(99), 1, 224–227. [in Ukrainian].

6. Merkulov, G. A. Chalisov, I. A. (Red.). (1969). Kurs patologogistologicheskoj tehniki [5-e izd., isprav. i dop.]. L.: Medicina. [in Russian].

7. Bagrij, M. M., Dibrova, V. A., Popadinec, O. G. & Grishuk, M. I. (2016). Metodiki morfologichnih doslidzhen: monografiya. Vinnicya: Nova kniga. [in Ukrainian].

8. Pogozhih, D. N. Rozanova, E. D. & Nardid, O. A. (2008). Izmenenie svojstv vodno-solevyh ekstraktov placenty cheloveka v processe nizkotemperaturnogo raneniya. Problemy kriobiologii, 18(1), 22–26. [in Russian].

9. Shepitko, V. I., Yeroshenko, H. A., Yakushko, O. V. & Vilkhova, O. V. (2012). Dekl. patent na korysnu model №75669 № y 201206261. Derzhavne patentne vidomstvo Ukrainy. [in Ukrainian].

10. Serikov, V., Hounshell, C. & Larkin, S. (2009). Human term placenta as a source of hematopoietic cells. Experimental biology and medicine, 234(7), 813–823.
Published
2017-09-29
How to Cite
Boruta, N. (2017). Мorphofunctional state of structural elements and hemomicrocirculatory bed in the red bone marrow in rats at a single subcutaneous injection of the cryopreserved placenta. Reports of Vinnytsia National Medical University, 21(1(2), 235-238. Retrieved from https://reports-vnmedical.com.ua/index.php/journal/article/view/116