Novosibirsk State Pedagogical University Bulletin, 2015, vol. 5, no. 1, pp. 72–79
UDC: 
616.058-616.538.19

Morphological changes in brain tissues after experimental ischemia

Shertaev M. M. 1 (Tashkent, Republic of Uzbekistan), Ibragimov U. K. 2 (Tashkent, Republic of Uzbekistan), Ikramova S. K. 1 (Tashkent, Republic of Uzbekistan), Ykubova F. T. 1 (Tashkent, Republic of Uzbekistan), Ibragimov K. U. 3 (Tashkent, Republic of Uzbekistan)
1 Tashkent Pediatric Medical Institute, Tashkent, Uzbekistan
2 Tashkent pediatrical medicine institute
3 Tashkent Pediatric Medical Institute
Abstract: 

Discrepancy of the data about neuronal metabolism, factors of apoptosis in brain tissues after ischemia-reperfusion, and also difficulty of evaluation prediction value of rehabilitation efficiency at patients with an insult have determined urgency of problem and expediency of realization of morphological researches at an experimental ischemia of a brain in various terms after reperfusion. Model of brain blood circulation disturbances was reproduced by clipping the right trunk of an anonymous artery for 40 minutes at rats. Morphological investigation was done after 1, 6, 24 hours and 3 and 7 days after reperfusion. Histological preparations studied by light microscopy after hematoxilin eosin treatment, immunohistochemical researches of Bcl-2 was done by “DAKO Citomation LCAB-2” (Denmark). It is established, that at experimental occlusion-reperfusion at brain observed changes are accrue in time after reperfusion. The greatest changes are found out in 6 hours after reperfusion when first attributes of apoptosis were established. There is reaction of socked formation around neuron by Bcl-2 labeled monoclonal antibodies. At the 7th day there were no apoptosis in brain tissues, but there was necrotic destruction. Necrotic process characterizes with the zone of fusions and independent arrangement Bcl-2 positive cells in the samples. Morphological changes in brain were shown as a hypostasis, chromatolis, which achieved maximal expressiveness at 24 hours after reperfusion, characterized by swelling of neurons, dispersion of tigroid and nuclear basophylia. These attributes are adverse and can be examined as predictors of necrosis, developing on 7 day in brain after occlusion-reperfusion

Keywords: 

an experimental ischemia of a brain, factors of apoptosis, Bcl-2, chromatolis, necrosis

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For citation:
Shertaev M. M., Ibragimov U. K., Ikramova S. K., Ykubova F. T., Ibragimov K. U. Morphological changes in brain tissues after experimental ischemia. Novosibirsk State Pedagogical University Bulletin, 2015, vol. 5, no. 1, pp. 72–79. DOI: http://dx.doi.org/10.15293/2226-3365.1501.07
References: 

1. Nazirov F. G., Ibadov R. A., Abrolov H. K. Principles of neuroprotection at acute brain blood flow circulation disturbances. The manual. Tashkent, 2011.
2. Bizenkova M. N., Chesnokova N. P., Nevajjau T. A. Activation of lipoperoxidation as afferent part of cellular structures disintegration at hypoxic hypoxia. Successes of modern natural sciences. 2007, no. 7, pp. 65–68. (In Russian)
3. Boldirev A. A. Oxidative stress and a brain. SEJ, 2005, no. 8, pp.4–9.
4. Gusev E. I., Skvortsova V. I. Ischemia of a brain. Moscow, Medicine Publ., 2001, 326 p. (In Russian)
5. Kuhtevich I. I. An ischemic insult. Moscow, Medicine Publ., 2006, 170 p. (In Russian)
6. Piers E. Gistohimija. Moscow, Medicine Publ., 1962, 648 p. (In Russian)
7. Ibragimov U. K., Khaibullina Z. R. Apoptosis. The manual. Tashkent, 2007.
8. Ibragimov U. K. Hypoxi-ishemic encephalopathy in children. Materials of the 2th World Congress of Neonatology.-6th – 9th January. 2010, Luxor, Egypt, p. 18.
9. Muresanu D. F. Neurotrophic factors. Bucuresti: Libripress. 2003, 268 p.
10. Sloviter R. Apoptosis: a guide for perplexed. Trends Pharmacology Sci., 2002, no. 23, pp. 19–24.

Date of the publication 04.02.2015