• Home
  • NEW DAY MEDICINE
  • 4 (90) 2026
  • 77 -4 (90) 2026 - Sadiyev E.S., Batirov D.Y. - MORPHOMETRIC CHANGES OF THE ADRENAL GLANDS UNDER THE INFLUENCE OF CARBON MONOXIDE

77 -4 (90) 2026 - Sadiyev E.S., Batirov D.Y. - MORPHOMETRIC CHANGES OF THE ADRENAL GLANDS UNDER THE INFLUENCE OF CARBON MONOXIDE

MORPHOMETRIC CHANGES OF THE ADRENAL GLANDS UNDER THE INFLUENCE OF CARBON MONOXIDE

Sadiyev E.S. - Bukhara State Medical Institute named after Abu Ali ibn Sina

Batirov D.Y. - Bukhara State Medical Institute named after Abu Ali ibn Sina

Nurmatov S.T. - Bukhara State Medical Institute named after Abu Ali ibn Sina

Rakhimov A.P. - Bukhara State Medical Institute named after Abu Ali ibn Sina

Allaberganov F.M. - Bukhara State Medical Institute named after Abu Ali ibn Sina

Resume

This article is based on the results of an experimental scientific study conducted on 120 outbred white rats aged 6 and 12 months. During the study, morphometric changes in the adrenal glands were identified in both intact and carbon monoxide–exposed outbred white rats. Morphometric analysis of changes occurring in the adrenal gland tissue under chronic exposure to carbon monoxide represents one of the актуal directions of modern medicine and contributes to solving and preventing endocrinological problems.

Keywords: carbon monoxide, adrenal gland, morphometry, experiment, rats.

First page

517

Last page

521

For citation:Sadiyev E.S., Batirov D.Y., Nurmatov S.T., Rakhimov A.P., Allaberganov F.M. - MORPHOMETRIC CHANGES OF THE ADRENAL GLANDS UNDER THE INFLUENCE OF CARBON MONOXIDE//New Day in Medicine 4(90)2026 517-521 https://newdayworldmedicine.com/en/new_day_medicine/4-90-2026

List of References

  1. Гарсия ЕР, и др. Противовоспалительная и анальгетическая активность извлечений из травы татарника колючего. Волгоградский научно-медицинский журнал. 2020;(3):39-43.
  2. Зобнин ЮВ, Немцева АА, Перфильев ДВ, Третьяков АБ. Острое отравление монооксидом углерода — проблема токсикологическая и неврологическая. Научный медицинский вестник Югры. 2019;1(19):33-38.
  3. Кадирова ЛВ. Морфологические параметры надпочечников при различных воздействиях. Amaliy va tibbiyot fanlari ilmiy jurnali. 2023;2(5):182-187.
  4. Линник МС. Гормоны коры надпочечников: физиологическая роль глюкокортикоидов. Меридиан. 2020;(5(39)):1-5.
  5. Самойлова АВ, Билалова АА. Отравление окисью углерода: механизм, признаки. Лучшие научные исследования студентов и учащихся. 2022:162-168.
  6. Чумасов ЕИ. Иммуногистохимическое исследование иннервации надпочечника крысы. Российский физиологический журнал им. И.М. Сеченова. 2020;106(11):1436-1450.
  7. Glazova OV, et al. Adrenal gland stem cells: general signaling pathways. Probl Endokrinol (Mosk). 2021;67(6):90-97. doi:10.14341/probl12768
  8. Khaleel IM, et al. Comparative morphological and morphometric study of the adrenal gland in adult male squirrel (Sciurus anomalus) and hamster (Mesocricetus auratus). Iraqi J Vet Sci. 2022;36(3):725-730.
  9. Lerario AM, Finco I, LaPensee C, et al. Molecular mechanisms of stem/progenitor cell maintenance in the adrenal cortex. Front Endocrinol (Lausanne). 2017;8:52. doi:10.3389/fendo.2017.00052
  10. Siasios A, et al. Adrenal glands of mice and rats: a comparative morphometric study. Lab Anim. 2022;56(3):247-258. doi:10.1177/00236772211066010

    file

    download