Abstract
Brain pathology (acute hypoxia and posthypoxic encephalopathy) is associated with less pronounced hyperplasia of the bone marrow erythroid stem (due to decreased count of proliferating committed precursors) and hemolytic anemia, while secretory activity of stromal cells of the hemopoiesis-inducing microenvironment is not impaired. Severe oxygen deficiency affects erythroid precursors and impairs production of functionally normal erythrocytes in the posthypoxic period.
Similar content being viewed by others
REFERENCES
Ya. Buresh, O. Bureshova, G. P. Houston, Methods and Main Experiments in Studies of the Brain and Behavior, Ed. A. S. Batuev [in Russian], Moscow (1991), p. 398.
M. V. Golovanov, Gematol. Transfuziol., No. 7, 39–40 (1991).
E. D. Gol'dberg, A. M. Dygai, and I. A. Khlusov, Role of the Autonomic Nervous System in the Regulation of Hemopoiesis [in Russian], Tomsk (1997), pp. 65–66.
E. D. Gol'dberg, A. M. Dygai, and V. P. Shakhov, Tissue Culture Methods in Hematology [in Russian], Tomsk (1992).
A. M. Gurvich, Experimental, Clinical, and Organizational Problems of General Reanimatology [in Russian], Moscow (1996), pp. 13–14.
A. M. Gurvich, G. V. Alekseeva, and V. V. Semchenko, Post-resuscitation Encephalopathy [in Russian], Omsk (1996), p. 10.
Laboratory Methods of Studies in Clinical Practice, Ed. V. V. Men'shikov [in Russian], Moscow (1987).
G. S. Krause, B. C. White, S. D. Aust, et al., Crit. Care Med., 1, 726 (1988).
R. N. Walsh and R. A. Cummins, Psychol. Bull., 83, 482–504 (1976).
Author information
Authors and Affiliations
Rights and permissions
About this article
Cite this article
Gol'dberg, E.D., Dygai, A.M., Zyuz'kov, G.N. et al. Mechanisms of Changes in the Erythroid Hemopoietic Stem during Hypoxias of Different Severity. Bulletin of Experimental Biology and Medicine 134, 122–125 (2002). https://doi.org/10.1023/A:1021167710993
Issue Date:
DOI: https://doi.org/10.1023/A:1021167710993