41 -10 (84) 2025 - Rajabova Z.S. - PATHOPHYSIOLOGICAL BASIS OF EMERGENCY DIAGNOSIS OF MICROCIRCULATION DISORDERS IN PERITONITIS

PATHOPHYSIOLOGICAL BASIS OF EMERGENCY DIAGNOSIS OF MICROCIRCULATION DISORDERS IN PERITONITIS

Rajabova Z.S. - Bukhara State Medical Institute named after Abu Ali ibn Sina

Resume

Based on the pathophysiological changes, an emergency method for diagnosing microcirculation disorders in peritonitis of various etiologies is proposed, based on the capillary-venous difference in blood hemoglobin. The study demonstrated the technical simplicity and accessibility of the method for any clinical laboratory, allowing for the assessment of the effectiveness of the ongoing infusion therapy.

Keywords: venous hemoglobin, capillary, peritonitis.

First page

222

Last page

225

For citation:Rajabova Z.S. - PATHOPHYSIOLOGICAL BASIS OF EMERGENCY DIAGNOSIS OF MICROCIRCULATION DISORDERS IN PERITONITIS//New Day in Medicine 10(84)2025 222-225 https://newdayworldmedicine.com/en/new_day_medicine/10-84-2025

List of References

1. Абрамович С.Г. Лазерная доплеровская флоуметрия в оценке микроциркуляции у здоровых людей и больных артериальной гипертонией / С. Г. Абрамович, А. В. Машанская // Сиб. мед. журнал. 2010;1:57-59.
2. Гринхальх Т. Основы доказательной медицины: Пер. с англ. М.: ГЭОТАРМЕД, 2004; 240с.
3. Гобен А.А. // Педиатрия, 1988;9:27-30.
4. Кишкун А.А., Арсенин С.Л., Кольченко О.Л. Доказательная лабораторная медицина (лекция) // Клиническая лабораторная диагностика. 2005;5:25-32.
5. Bateman R. M., Sharpe M. D., Ellis C. G. Bench-to-bedsidereview: microvascular dysfunction in sepsis — hemodynamics, oxygen transport and nitric oxide. // Crit. Care 2003;7(5):359-373.
6. De Backer D., Creteur J., Preiser J. C. et al. Microvascular blood flow is altered in patients with sepsis. // Am. J. Respir. Crit. Care Med. 2002;166(1):98-104.
7. Boerma E. C., Kuiper M. A., Kingma W. P. et al. Disparity between skin ьperfusion and sublingual microcirculatory alterations in severe sepsis and septic shock: a prospective observational study. // Intensive Care Med. 2008;34(7):1294-1298.
8. Lima A., Jansen T. C., van Bommel J. et al. The prognostic value of the subjective assessment of peripheral perfusion in critically ill patients. // Crit. Care Med. 2009;37(3):934-938.
9. Sakr Y., Dubois M. J., De Backer D. et al. Persistent microcirculatory alterations are associated with organ failure and death in patients with septic shock. // Crit. Care Med. 2004;32(9):1825-1831.
10. Altintas M. A., Altintas A., Guggenheim M. et al. Insight in microcirculation and histomorphology during burn shock treatment using in vivo confocallaserscanning microscopy. // J. Crit. Care 2010;25(1):173:1-173.
11. Goedhart P., Khalilzada M., Bezemer R. et al. Sidestream dark field imaging: a novel stroboscopic LED ring!based imaging modality for clinical assessment of the microcirculation. // Opt. Express 2007;15(23):15101-15114.
12. Dyson A., Stidwill R., Taylor V., Singer M. The impact of inspired oxygen concentration on tissue oxygenation during progressive hemorrhage. // Intensive Care Med. 2009;35(10):1783-1791
13. Lang K., Boldt J., Suttner S., Haisch G. Colloids versus crystalloids and tissue oxygen tension in patients undergoing major abdominal surgery. Anesth. Analg. 2001;93(2):405-409.
14. Chappell D., Jacob M., Hofmann X., Kiefer K. et al. A rational approach to perioperative fluid management. // Anesthesiology 2008;109(4):723-740.
15. Gerasimov L.V., Moroz V.V., Isakova А.А. Microrheological disorders in critical conditions. // Obshchaya Reanimatologiya «(In Rus.)» 2010;VI(1):74-78.

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