Получена: 17.05.2023/ Принята: 05.12.2023/ Опубликована online: 29.12.2023
УДК 616.61-008.64.000.93
DOI 10.53511/PHARMKAZ.2024.39.16.016
Б.Е. СҮЙЕУБЕКОВ2,3, А.Д. СЕПБАЕВА1,3, А.К. ЕШМАНОВА1
1КазНМУ имени С.Д.Асфендиярова, г. Алматы, Казахстан
2 Казахстанский Медицинский Университет «ВШОЗ»,г. Алматы, Казахстан
3 ГКП на ПХВ «ЦПиДКХ», г. Алматы, Казахстан.
РАСПРОСТРАНЕНИЕ ФАКТОРОВ РИСКА ДЛЯ КАРДИОХИРУРГИЧЕСКИАССОЦИИРОВАННОГО ОСТРОГО ПОЧЕЧНОГО ПОВРЕЖДЕНИЯ (ОБЗОР)
Резюме: Острое почечное повреждение у новорожденных, находящихся в критическом состоянии,
резко утяжеляет прогноз заболевания, сопровождается значительной летальностью и неблагоприятными отдаленными исходами.
В настоящее время остается ряд нерешенных вопросов, касающихся интенсивной терапии у новорожденных с острым почечным повреждением, что требует детального изучения факторов риска, приводящие к острому почечному повреждению.
Цель обзора: Изучить и обобщить предрасполагающих факторов для кардиохирургически-ассоциированного острого почечного повреждения у новорожденных детей для дальнейшей разработки алгоритма ранней диагностики и интенсивной терапии в раннем послеоперационном периоде.
Ключевые слова: кардиохирургически-ассоциированное острое почечное повреждение, почечная
дисфункция, системная воспалительная реакция организма, искусственное кровообращение.
СПИСОК ЛИТЕРАТУРЫ
1 Öktener Anuk, E., Erdoğan, İ., Özkan, M., Baskin, E., Varan, B., & Tokel, N. K. (2022). Evaluation of acute kidney injury after surgery for congenital heart
disease in neonates: a tertiary hospital experience. The Journal of Maternal-Fetal & Neonatal Medicine, 35(25), 9496-9503. https://doi.org/10.1080/1476705
8.2022.2044774.
2 Sultana, A., Ashraf, R., Sonia, S. F., Afroze, S., Khanam, M., Ghosh, N., … & Haque, F. (2021). A Synopsis of Acute Kidney Injury Following Pediatric Cardiac
Surgery. JMRKSH 2021; 2(2): 69-75. https://cutt.ly/i7pM6oL.
3 Li S, Krawczeski CD, Zappitelli M et al. Incidence, risk factors, and outcomes of acute kidney injury after pediatric cardiac surgery – a prospective multicenter study. Crit Care Med 2011; 39(6):1493–1499
4 Blinder JJ, Goldstein SL, Lee VV et al. Congenital heart surgery in infants: effects of acute kidney injury on outcomes. J Thorac Cardiovasc Surg
2012;143:368–374
5 Toth R, Breuer T, Cserep Z et al. Acute kidney injury is associated with higher morbidity and resource utilization in pediatric patients undergoing heart surgery.
Ann Thorac Surg 2012; 93:1984–1990
6 Aydin SI, Seiden HS, Blaufox AD et al. Acute kidney injury after surgery for congenital heart disease. Ann Thorac Surg 2012; 94:1589–1595
7 Morgan CJ, Zappitelli M, Robertson CM et al. Western Canadian Complex Pediatric Therapies Follow-Up Group (2012) Risk factors for and outcomes of
acute kidney injury in neonates undergoing complex cardiac surgery. J Pediatr 2012; 162:120–12726 ISSN 1561-6274. Нефрология. 2016. Том 20. №3.
8 Taylor ML, Carmona F, Thiagarajan RR et al. Mild postoperative acute kidney injury and outcomes after surgery for congenital heart disease. J Thorac
Cardiovasc Surg 2013;146:146-152
9 AlAbbas A, Campbell A, Skippen P еt аl. Epidemiology of cardiac surgery-associated acute kidney injury in neonates: a retrospective study. Pediatr Nephrol
2013; (28): 1127-1134
10 Ricci Z, Di Nardo M, Iacoella C et al. Pediatric RIFLE for acute kidney injury diagnosis and prognosis for children undergoing cardiac surgery: a singlecenter prospective observational study. Pediatr Cardiol 2013;34:1404-1408
11 Gil-Ruiz Gil-Esparza MA, Alcaraz Romero AJ, Romero Otero A et al. Prognostic relevance of early AKI according to pRIFLE criteria in children undergoing
cardiac surgery .Pediatr Nephrol 2014; 29:1265-1272
12 Jenkins KJ, Gauvreau K, Newburger JW et al. Consensusbased method for risk adjustment for surgery for congenital heart disease. J Thorac Cardiovasc
Surg 2002; 123(1):110–118
13 Jenkins KJ, Gauvreau K. Center-specific differences in mortality: preliminary analyses using the risk adjustment in congenital heart surgery (RACHS-1)
method. J Thorac Cardiovasc Surg 2002; 124(1):97–104
14 Bojan M, Gioanni S, Pascal R. Vouhe´ et al. Early initiation of peritoneal dialysis in neonates and infants with acute kidney injury following cardiac surgery
is associated with a significant decrease in mortality. Kidney Int 2012; 82(4):474–781
15 Kwiatkowski DM, Krawezeski CD. Acute Kidney Injury after cardiovascular surgery in children. In Perioperative Kidney Injury: Principles of Risk Assessment,
Diagnosis and Treatment. Editors C.V.Thakar, C.V. Parikh, Springer 2015; 99-109
16 Liu KD, Thompson BT, Ancukiewicz M et al. Acute kidney injury in patients with acute lung injury: impact of fluid accumulation on classification of acute
kidney injury and associated outcomes. Crit Care Med 2011; 39:2665–2671
17 Arikan AA, Zappitelli M, Goldstein SL et al. Fluid overload is associated with impaired oxygenation and morbidity in critically ill children. Pediatr Crit Care
Med 2012;13(3):253–258
18 Sutherland SM, Zappitelli M, Alexander SR et al. Fluid overload and mortality in children receiving continuous renal replacement therapy: the prospective
pediatric continuous renal replacement therapy registry. Am J Kidney Dis 2010;55(2):316–325
19 Hassinger AB, Wald EL, Goodman DM. Early postoperative fluid overload precedes acute kidney injury and is associated with higher morbidity in pediatric
cardiac surgery patients. Pediatr Crit Care Med 2014;15:131–138
20 Goldstein SL, Devarajan P. Acute kidney injury in childhood: should we be worried about progression to CKD? Pediatr Nephrol 2011; 26 (1): 29-40
21 Al-Ismaili Z, Palijan A, Zappitelli M. Biomarkers of acute kidney injury in children: discovery, evaluation, and clinical application. Pediatr Nephrol 2011;
22 (1):29-40 26. Endre ZH, Pickering JW. Acute kidney injury clinical trial design: old problems, new strategies. Pediatr Nephrol 2013; 28 (2): 207-221
23 Peco-Antic A, Vukicevic I, Kotur J et al. Biomarkers of acute kidney injury in pediatric cardiac surgery. Abstracts. The 45th Annual Meeting on September
6th – 8th 2012, Krakow, Poland. Pediatr Nephrol 2012; 27(9): 1620
24 Bojan M, Vicca S, Lopez-Lopez V et al. Predictive Performance of Urine Neutrophil Gelatinase-Associated Lipocalin for Dialysis Requirement and Death
Following Cardiac in Neonates and Infants. Clin J Am Soc Nephrol 2014;9:285-294
25 Dent CL, Ma Q, Bennett M et al. Plasma neutrophil gelatinase-associated lipocalin predicts acute kidney injury, morbidity and mortality after pediatric cardiac
surgery: a prospective uncontrolled cohort study. Crit Care 2007;11(6):R127
26 Greenberg J, Whitlock RR, Zhang W et al. Interleukin-6 and interleukin-10 as acute kidney injury biomarkers in pediatric cardiac surgery. Pediatr Nephrol
2015; 30(16): 1519-1527
27 Krawczeski CD, Goldstein SL, Woo JG et al. Temporal relationship and predictive value of urinary acute kidney injury biomarkers after pediatric
cardiopulmonary bypass. J Am Coll Cardiol 2011;58(22): 2301–2309
28 Battista, J., De Luca, D., Eleni Dit Trolli, S., Allard, L., Bacchetta, J., Bouhamri, N., … & Bernardor, J. (2023). CARPEDIEM® for continuous kidney
replacement therapy in neonates and small infants: a French multicenter retrospective study. Pediatric Nephrology, 1-11. https://doi.org/10.1007/s00467-022-
05871-0.
29 Chen, W., Pei, M., Chen, C., Zhu, R., Wang, B., Shi, L., … & Lv, L. (2023). Independent risk factors of acute kidney injury among patients receiving
extracorporeal membrane oxygenation. BMC nephrology, 24(1), 1-8. https://doi.org/10.1186/s12882-023-03112-6.
30 Yavuz, Y., & Isildak, F. U. (2023). Effect of intraoperative theophylline use on acute kidney injury in paediatric cardiac surgery. Cardiology in the Young, 33(1),
60-68. https://doi.org/10.1017/S1047951122000245.
