Биология ва тиббиёт муаммолари 2024 №1 (151)
Maqola mavzusi
РОЛЬ БИОМАРКЕРОВ В ДИАГНОСТИКЕ ОСТРОГО ПОЧЕЧНОГО ПОВРЕЖДЕНИЯ У ДЕТЕЙ (393-396)
Mualliflar
Исмаилов Сайдимурад Ибрагимович, Хайдаров Алишер Эркинович, Мамасиддиков Сарвар Муродович, Нарзиев Мамуржон Жахонгирович, Махмудова Мухаббат Анваровна, Хамраев Гайрат Мамасаидович, Холмуратов Акмаль Абдумаликович, Носиров Рустам Номозович, Собиров Дониёр Муроджонович, Махмудов Кодиржон Олтинбоевич, Мардонов Жамшид Нормуротович
Muassasa
1 - ГУ «Республиканский специализированный научно-практический медицинский центр хирургии имени академика В.Вахидова», Республика Узбекистан, г. Ташкент; 2 - Ташкентский государственный стоматологический институт, Республика Узбекистан, г. Ташкент
Annotatsiya
Диагностика острого повреждения почек у детей, на ранних стадиях развития, после кардиохирургических вмешательств, остается главной проблемой реаниматологии, педиатрии, неонатологии, нефрологии. Основываясь на рутинных методах, таких как определение сывороточного креатинина, скорости клубочковой фильтрации и объема диуреза, практическая медицина не достигает успешных результатов. В связи с этим определение биомаркеров острого повреждения почек является одним из ключевых моментов в решении проблемы ранней диагностики.
Kalit so'zlar
острое повреждение почек у детей, биомаркеры, кардиохирургические вмешательства.
Adabiyotlar
1. Greenberg J.H., Parikh C.R. Biomarkers for Diagnosis and Prognosis of AKI in Children: One Size Does Not Fit All // CJASN. – 2017. – Vol. 12(9). – P. 1551-1557. 2. Cho, Myung Hyun. "Pediatric acute kidney injury: focusing on diagnosis and management." Childhood Kidney Diseases 24.1 (2020): 19-26. 3. Van den Eynde, Jef, et al. "Biomarkers of acute kidney injury after pediatric cardiac surgery: a meta-analysis of diagnostic test accuracy." European Journal of Pediatrics 181.5 (2022): 1909-1921. 4. Садыкова, А. Ж., et al. "Применение биомаркера uNGAL в ранней диагностике кардиохирургически-ассоциированного острого почечного повреждения у новорожденных." Reproductive Medicine 2 (55) (2023): 82-88. 5. Рябушко, Е. С., and Д. А. Фурманчук. "Диагностика острого почечного повреждения в раннем послеоперационном периоде у детей с врожденными пороками сердца с использованием цистатина с сыворотки крови и NGAL мочи." Молодежный сборник научных статей «Научные стремления 20 (2016): 36-37. 6. Shi, Shanshan, Jiajie Fan, and Qiang Shu. "Early prediction of acute kidney injury in neonates with cardiac surgery." World Journal of Pediatric Surgery 3.2 (2020). 7. Krawczeski CD, Woo JG, Wang Y, et al. Neutrophil gelatinase-associated lipocalin concentrations predict development of acute kidney injury in neonates and children after cardiopulmonary bypass. J Pediatr 2011;158:1009–15. 8. Cantinotti M, Storti S, Lorenzoni V, et al. The combined use of neutrophil gelatinase-associated lipocalin and brain natriuretic peptide improves risk stratification in pediatric cardiac surgery. Clin Chem Lab Med 2012;50:2009–17. 9. Ricci Z, Netto R, Garisto C, et al. Whole blood assessment of neutrophil gelatinase–associated lipocalin versus pediatricRIFLE for acute kidney injury diagnosis and prognosis after pediatric cardiac surgery. Pediatr Crit Care Med 2012;13:667–70. 10. Peco-Antić A, Ivanišević I, Vulićević I, et al. Biomarkers of acute kidney injury in pediatric cardiac surgery. Clin Biochem 2013;46:1244–51. 11. Hassinger AB, Backer CL, Lane JC, et al. Predictive power of serum cystatin C to detect acute kidney injury and pediatric-modified rifle class in children undergoing cardiac surgery. Pediatr Crit Care Med 2012;13:435–40. 12. Zappitelli M, Coca SG, Garg AX, et al. The association of albumin/creatinine ratio with postoperative AKI in children undergoing cardiac surgery. CJASN 2012;7:1761–9. 13. Hazle MA, Gajarski RJ, Aiyagari R, et al. Urinary biomarkers and renal near-infrared spectroscopy predict intensive care unit outcomes after cardiac surgery in infants younger than 6 months of age. J Thorac Cardiovasc Surg 2013;146:861–7. 14. Seitz S, Rauh M, Gloeckler M, et al. Cystatin C and neutrophil gelatinase-associated lipocalin: bi-omarkers for acute kidney injury after congenital heart surgery. Swiss Med Wkly 2013;143:w13744. 15. Zheng J, Xiao Y, Yao Y, et al. Comparison of urinary biomarkers for early detection of acute kidney injury after cardiopulmonary bypass surgery in infants and young children. Pediatr Cardiol 2013;34:880–6. 16. Mamikonian LS, Mamo LB, Smith PB, et al. Cardiopulmonary bypass is associated with hemolysis and acute kidney injury in neonates, infants, and Children*. Pediatr Crit Care Med 2014;15:e111–9. 17. Alcaraz AJ, Gil-Ruiz MA, Castillo A, et al. Postoperative neutrophil Gelatinase–Associated lipocalin predicts acute kidney injury after pediatric cardiac Surgery*. Pediatr Crit Care Med 2014;15:121–30. 18. Bojan M, Basto Duarte MC, Ermak N, et al. Structural equation modelling exploration of the key pathophysiological processes involved in cardiac surgery-related acute kidney injury in infants. Crit Care 2016;20:171. 19. Herbert C, Patel M, Nugent A, et al. Serum cystatin C as an early marker of neutrophil gelatinase-associated Lipocalin-positive acute kidney injury resulting from cardiopulmonary bypass in infants with congenital heart disease. Congenit Heart Dis 2015;10:E180–8. 20. Tew S, Fontes ML, Greene NH, et al. Natural history of nonimmunemediated thrombocytopenia and acute kidney injury in pediatric open‐heart surgery. Paediatr Anaesth 2017;27:305–13. 21. Reiter K, Balling G, Bonelli V, et al. Neutrophil gelatinase-associated lipocalin reflects inflammation and is not a reliable renal biomarker in neonates and infants after cardiopulmonary bypass: a prospective case–control study. Cardiol Young 2018;28:243–51. 22. Gist KM, Cooper DS, Wrona J, et al. Acute kidney injury biomarkers predict an increase in serum milrinone concentration earlier than serum Creatinine–Defined acute kidney injury in infants after cardiac surgery. Ther Drug Monit 2018;40:186–94. 23. Burra V, Nagaraja PS, Singh NG, et al. Early prediction of acute kidney injury using serum phosphorus as a biomarker in pediatric cardiac surgical patients. Ann Card Anaesth 2018;21:455–9. 24. Volovelsky O, Terrell TC, Swain H, et al. Pre-Operative level of FGF23 predicts severe acute kidney injury after heart surgery in children. Pediatr Nephrol 2018;33:2363–70. 25. Schroeder LW, Buckley JR, Stroud RE, et al. Plasma neutrophil gelatinase-associated lipocalin is associated with acute kidney injury and clinical outcomes in neonates undergoing cardiopulmonary bypass. Pediatric Critical Care Medicine 2019;20:957–62. 26. Toda, Yuichiro, and Kentaro Sugimoto. "AKI after pediatric cardiac surgery for congenital heart diseases–recent developments in diagnostic criteria and early diagnosis by biomarkers." Journal of intensive care 5.1 (2017): 1-7.