7 -4 (90) 2026 - Z.A. Akhadova - MORPHOLOGICAL STRUCTURAL STRUCTURE OF DEEP CERVICAL LYMPH NODES

MORPHOLOGICAL STRUCTURAL STRUCTURE OF DEEP CERVICAL LYMPH NODES

Z.A. Akhadova - Tashkent State Medical University

Resume

The aim is to study the dynamics of structural and cellular transformations of deep cervical lymph nodes in rats in the neonatal period (20-day-old rats). The material of the study is experimental animals (rats) of the postnatal period of development (20-day-old rats, the authors used anatomical dressing, histological, electron microscopic, morphometric research methods. In the postnatal period, there is a structural restructuring of the sinus system of the deep cervical lymph nodes. The first is formed under the capsular sinus, then the cerebral sinuses and, last of all, the intermediate ones, which reflects the dynamics of changes in the transport function of the lymph nodes.

Key words: morphology of cervical lymph nodes, experimental work, experimental animals, rats.

First page

42

Last page

50

For citation:Z.A. Akhadova - MORPHOLOGICAL STRUCTURAL STRUCTURE OF DEEP CERVICAL LYMPH NODES//New Day in Medicine 4(90)2026 42-50 https://newdayworldmedicine.com/en/new_day_medicine/4-90-2026

List of References

  1. Сапин МР. Лимфатическая система и ее роль в иммунных процессах. В: Морфология: материалы докладов XI конгресса Международной ассоциации морфологов; 29–31 мая 2012 г.; Самара. СПб; 2012. 3(141):139.
  2. Song IH, Heo SH, Bang WS, Park HS, Park IA, Kim YA, et al. Predictive value of tertiary lymphoid structures assessed by high endothelial venule counts in the neoadjuvant setting of triple-negative breast cancer. Cancer Res Treat. 2017;49(2):399–407. doi:10.4143/crt.2016.215
  3. Бородин ЮИ, Григорьев ВН. Лимфатический узел при циркуляторных нарушениях. Новосибирск: Наука, Сиб. отделение; 1986. 286 с.
  4. Turner VM, Mabbott NA. Influence of ageing on the microarchitecture of the spleen and lymph nodes. Biogerontology. 2017;18(5):723–738. doi:10.1007/s10522-017-9703-7
  5. Поддубная ИВ. Лечение индолентных неходжкинских лимфом. Практическая онкология. 2004;5(3).
  6. Bennett JE, Dolin R, Blaser MJ, eds. Mandell, Douglas, and Bennett's Principles and Practice of Infectious Diseases. 8th ed. Philadelphia: Elsevier; 2015. p. 35–77.
  7. García-Hernández ML, Uribe-Uribe NO, Espinosa-González R, Kast WM, Khader SA, Rangel-Moreno J. A unique cellular and molecular microenvironment is present in tertiary lymphoid organs of patients with spontaneous prostate cancer regression. Front Immunol. 2017;8:563. doi:10.3389/fimmu.2017.00563
  8. Сапин МР, Этинген ЛЕ. Иммунная система человека. М.: Медицина; 1996. 304 с.
  9. Bartlett PC, Ruggiero VJ, Hutchinson HC, et al. Current developments in the epidemiology and control of enzootic bovine leukosis as caused by bovine leukemia virus. Pathogens. 2020;9(12):1058. doi:10.3390/pathogens9121058
  10. Saidova AA. Bovine stem cells: methodology and applications. SOJ Veterinary Sciences. 2019;5(1):1–9.
  11. Бородин ЮИ, Горчакова ОВ, Горчаков ВН. Периферические лимфоидные структуры: образование и функция. Морфология. 2016;(4):90–96.
  12. Bento DC, Jones E, Junaid S, Tull J, Williams GT, Godkin A, et al. High endothelial venules are rare in colorectal cancers but accumulate in extra-tumoral areas with disease progression. Oncoimmunology. 2015;4(3):e974374. doi:10.4161/2162402X.2014.974374

    file

    download