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  • 45 -7 (49) 2024 - Yo’ldosheva N.Q. - MORPHO-TOPOGRAPHIC INDICATORS OF THE LATERAL VENTRICLES OF THE BRAIN IN CONCUSSIONS AND INJURIES OF VARYING SEVERITY

45 -7 (49) 2024 - Yo’ldosheva N.Q. - MORPHO-TOPOGRAPHIC INDICATORS OF THE LATERAL VENTRICLES OF THE BRAIN IN CONCUSSIONS AND INJURIES OF VARYING SEVERITY

MORPHO-TOPOGRAPHIC INDICATORS OF THE LATERAL VENTRICLES OF THE BRAIN IN CONCUSSIONS AND INJURIES OF VARYING SEVERITY

Yo’ldosheva N.Q. - Bukhara State Medical Institute named after Abu Ali ibn Sina

Resume

Recent publications, scientific conferences and other sources of information have been used as sources of scientific research. An important process is the collection and sorting of reliable information about the lateral ventricle, which is of particular importance among the cerebral ventricles. The lateral ventricles of the brain are structurally divided into the frontal branch, body, dorsal branch, and inferior branch. The length and size of the lateral ventricles can vary in terms of the above structure in different brain lesions and cause different symptoms. Measurement parameters can give different results in different ways. As a result of the studies, reliable and accurate data can be obtained in a consistent way through the magnetic resonance imaging examination method.

Keywords: traumatic brain injury, concussions, lateral ventricles, magnetic resonance imaging (MRI).

First page

261

Last page

265

For citation:Yo’ldosheva N.Q. - MORPHO-TOPOGRAPHIC INDICATORS OF THE LATERAL VENTRICLES OF THE BRAIN IN CONCUSSIONS AND INJURIES OF VARYING SEVERITY//New Day in Medicine 7(69)2024 261-265 https://newdayworldmedicine.com/en/new_day_medicine/7-69-2024

List of References

  1. Capizzi A, Wu J, Verdusco-Gutierrez M. Traumatic brain injury: a review of epidemiology, pathophysiology and medical management. //Medical Clinics of North America. 2020;104(2):213-238.
  2. Maas E, Menon DC, Adelson PD, Andelik N, Bell MJ, Belli A, et al. Traumatic brain injury: integrated approaches to improve prevention, clinical care and research. //Lancet Neurol. 2017;16(12):987-1048.
  3. Likhterman B. L. The emergence of a medical specialty (with particular reference to neurosurgery). Part ii. Natural science factor //Sechenov Medical Journal. 2022;4:80-85.
  4. Chen HR, Chen CW, Kuo YM, Chen B, Kuan IS, Huang H, Lee J, Anthony N, Kuan CY, Sun YY. Monocytes promote acute neuroinflammation and become pathological microglia in neonatal hypoxic-ischemic brain injury. //Theranostics. 2022 Jan 1;12(2):512-529.
  5. Hagberg H, Mallard C, Ferriero DM, Vannucci SJ, Levison SW, Vexler ZS. et al. The role of inflammation in perinatal brain injury. //Nat Rev Neurol. 2015;11:192–208.
  6. Yang D, Sun YY, Bhaumik SK, Li Y, Baumann JM, Lin X. et al. Blocking lymphocyte trafficking with FTY720 prevents inflammation-sensitized hypoxic-ischemic brain injury in newborns. //J Neurosci. 2014;34:16467–81.
  7. Yao HW, Kuan CY. Early neutrophil infiltration is critical for inflammation-sensitized hypoxic-ischemic brain injury in newborns.// J Cereb Blood Flow Metab. 2020;40:2188-200.
  8. Morey RA, Davis SL, Garrett ME, Haswell CC; Mid-Atlantic MIRECC Workgroup; Marx CE, Beckham JC, McCarthy G, Hauser MA, Ashley-Koch AE. Genome-wide association study of subcortical brain volume in PTSD cases and trauma-exposed controls. //Transl Psychiatry. 2017 Nov 30;7(11):1265
  9. Shishido H, Toyota Y, Hua Y, Keep RF, Xi G. Role of lipocalin 2 in intraventricular haemoglobin-induced brain injury. //Stroke Vasc Neurol. 2016 Jun 24;1(2):37-43.
  10. Ni W, Zheng M, Xi G, Keep RF, Hua Y. Role of lipocalin-2 in brain injury after intracerebral hemorrhage. //J Cereb Blood Flow Metab. 2015 Sep;35(9):1454-61.
  11. Chen M, Guo P, Ru X, Chen Y, Zuo S, Feng H. Myelin sheath injury and repairment after subarachnoid hemorrhage. //Front Pharmacol. 2023 Apr 3;14:1145605.
  12. Pang J, Peng J, Yang P, Kuai L, Chen L, Zhang JH, Jiang Y. White Matter Injury in Early Brain Injury after Subarachnoid Hemorrhage. //Cell Transplant. 2019 Jan;28(1):26-35.
  13. Nelson SE, Sair HI, Stevens RD. Magnetic Resonance Imaging in Aneurysmal Subarachnoid Hemorrhage: Current Evidence and Future Directions. //Neurocrit Care. 2018 Oct;29(2):241-252.
  14. Sener S, Van Hecke W, Feyen BF, Van der Steen G, Pullens P, Van de Hauwe L, Menovsky T, Parizel PM, Jorens PG, Maas AI. Diffusion Tensor Imaging: A Possible Biomarker in Severe Traumatic Brain Injury and Aneurysmal Subarachnoid Hemorrhage? //Neurosurgery. 2016 Dec;79(6):786-793
  15. Zhang Y, Zeng H, Lou F, Tan X, Zhang X, Chen G. SLC45A3 Serves as a Potential Therapeutic Biomarker to Attenuate White Matter Injury After Intracerebral Hemorrhage. //Transl Stroke Res. 2024 Jun;15(3):556-571.
  16. Ye L, Tang X, Zhong J, Li W, Xu T, Xiang C, Gu J, Feng H, Luo Q, Wang G. Unraveling the complex pathophysiology of white matter hemorrhage in intracerebral stroke: A single-cell RNA sequencing approach. CNS Neurosci Ther. 2024 Mar;30(3):e14652.
  17. Ma XY, Yang TT, Liu L, Peng XC, Qian F, Tang FR. Ependyma in Neurodegenerative Diseases, Radiation-Induced Brain Injury and as a Therapeutic Target for Neurotrophic Factors. Biomolecules. 2023 Apr 27;13(5):754.
  18. Fogel MA, Pawlowski T, Schwab PJ, Nicolson SC, Montenegro LM, Berenstein LD, Spray TL, Gaynor JW, Fuller S, Keller MS, Harris MA, Whitehead KK, Vossough A, Licht DJ. Brain magnetic resonance immediately before surgery in single ventricles and surgical postponement. //Ann Thorac Surg. 2014 Nov;98(5):1693-8.
  19. Hayashi Y, Jinnou H, Sawamoto K, Hitoshi S. Adult neurogenesis and its role in brain injury and psychiatric diseases. //J Neurochem. 2018 Dec;147(5):584-594
  20. Sun D. Endogenous neurogenic cell response in the mature mammalian brain following traumatic injury. //Exp Neurol. 2016 Jan;275 Pt 3(0 3):405-410.

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