Articles
| Open Access |
DOI:
https://doi.org/10.37547/TAJMSPR/Volume02Issue10-08
Morphological Features Of Microvascular Tissue Of The Brain At Hemorrhagic Stroke
Kamalova Malika Ilkhomovna , Assistant To The Department Of Human Anatomy And Surgical Topography Of The Samrkand State Medical Institute, Uzbekistan Islamov Shavkat Eriyigitovich , Doctor Of Medical Sciences, Department Of Forensic Examination And Pathological Anatomy, Samarkand Medical Institute, Uzbekistan Khaidarov Nodir Kadyrovich , Doctor Of Medical Sciences, Department Of Nervous Diseases And Physiotherapy Of Tashkent State Dental Institute, UzbekistanAbstract
Hemorrhagic stroke is less common than ischemic stroke and is heavier and in most cases has an adverse outcome in the form of death of a patient or permanent disability.Recently, there has been a tendency to increase the frequency of GI, which is increasingly found at a younger age. GI is based on a rupture of blood vessels, the development of hemorrhage and as a consequence - the formation of cerebral edema, ischemia of brain tissue, violation of the integrity of GBS, imbalance of the neuroimmune system, as well as violation of the function of other systems and organs.
Keywords
Brain tissue microvessels, hemorrhagic stroke
References
Anufriev P.L., Gulevskaya T.S. Early histological signs of brain death syndrome in stroke (in Russian) // Vestnik of Russian Military Medical Academy. - – 2019. -Tom67, No. 3. - С.19-21.
Suslina, Z.A. Brain circulation disorders: diagnostics, treatment, prevention / Z.A. Suslina, T.S. Gulevskaya, M.Yu. - Moscow: MEDpress-Inform, 2016. - – 536.
Colonna M., Butovsky O. Microglia function in the central nervous system during health and neurodegeneration. // Annu. Rev. Immunol. - 2017. - №35 – Р. 441–468.
Cooke R.A.,Stewart B. Colour Atlas of Anatomical Pathology. –Churchill Livingstone. – 2004. – 300 p.
Donnan G.A., Fisher M., Macleod M., Davis S.M.Stroke(англ.)//The Lancet.—Elsevier, 2008.— May (vol. 371, no. 9624).— P. 1612—1623.
European Stroke Initiative recommendations for stroke management: update 2003 // Cerebrovasc. Dis. - 2003. - Vol. 16, - P.311-337.
Faustino J., Wang X., Johnson C.E., Klibanov A., Derugin N., Wendland M.F., et al. Microglial cells contribute to endogenous brain defenses after acute neonatal focal stroke. //J. Neurosci.- 2011. - №31.– Р.12992–13001.
Fumagalli S., Perego C., Ortolano F., De Simoni M.G. CX3CR1 deficiency induces an early protective inflammatory environment in ischemic mice. // Glia. -2013. - №61.Р. 827–842.
Article Statistics
Copyright License
Copyright (c) 2020 The American Journal of Medical Sciences and Pharmaceutical Research
This work is licensed under a Creative Commons Attribution 4.0 International License.