|
|
|
| Application and clinical significance of renal oxygen saturation monitoring in infants with noncyanotic congenital heart disease surgery |
| XIE Yuetao XING Dajun▲ YAO Cuicui MA Xinggang WANG Change |
| Department of Anesthesiology, Shenzhen Children′s Hospital, Guangdong Province, Shenzhen 518000, China |
|
|
|
Abstract Objective To explore the clinical significance of continuous renal oxygen saturation monitoring. Methods Fifty cases 3 months - 3 years old children with acyanotic congenital heart disease accepted surgical treatment from January to November 2017 in Shenzhen Children Hospital were selected. Sufentanil Sevoflurane inhalation combined with tracheal intubation anesthesia were used. At the time point of before anesthesia (t0), 5 min after anesthesia (t1), 5 min after operation (t2), 5 min after cardiopulmonary bypass (t3), 15 min after cardiopulmonary bypass (t4) the beginning of CPB, after open aortic 5 min (t5), 5 min after closing the anaesthesia machine (t6) and ending of the surgery (t7), the renal regional oxygenation saturation (RrSO2), cerebral regional oxygen saturation (CrSO2), mean arterial pressure (MAP), the nose temperature and rectal temperature and other changes were recorded. Results At the time point of t3, t4, t5, t6, t7, RrSO2 and CrSO2 were higher than t0, the differences were statistically significant (P < 0.05). RrSO2 was positively correlated with CrSO2 (r = 0.682, P = 0.000), and RrSO2 was positively correlated with MAP (r = 0.258, P = 0.061), and negatively correlated with nose temperature, rectal temperature (r = -0.169, -0.166, P = 0.083, 0.101). There was a positive correlation between CrSO2 and MAP (r = 0.287, P = 0.076), CrSO2 was negatively correlated with nose temperature, rectal temperature (r = -0.177, -0.180, P = 0.064, 0.097). There was no significant difference in PO2, blood lactate and urea nitrogen before and after systemic circulation after systemic circulation. There was no significant difference in PCO2, PO2, blood lactate and urea nitrogen between before systemic circulation, during systemic circulation, after systemic circulation (P > 0.05), comparison between any two means, the differences were not statistically significant (P > 0.05). Conclusion Renal oxygen saturation monitoring can be used as a new renal oxygenation monitoring application in infants with congenital heart disease surgery.
|
|
|
|
|
|
[1] Morgan CJ,Zappitelli M,Robertson CM,et al. Risk factors for and outcomes of acute kidney injury in neonates undergoing complex cardiac surgery [J]. J Pediatr,2013,162(1):120-121.
[2] 周国平.急性肾损伤的诊断与治疗进展[J].中华实用儿科临床杂志,2013,28(9):717-720.
[3] Vignati C,Cattadori G. Measuring cardiac output during cardiopulmonary exercise testing [J]. Ann Am Thorac Soc,2017,14(Supplement 1):S48-S52.
[4] Algra SO,Schouten AN. Low-flow antegrade cerebral perfusion attenuates early renal and intestinal injury during neonatal aortic arch reconstruction [J]. J Thorac cardiov Surg,2012,144(6):1323-1328.
[5] Ruf B,Bonelli V,Balling G,et al. Intraoperative renal near-infrared spectroscopy indicates developing acute kidney injury in infants undergoing cardiac surgery with cardiopulmonary bypass:a case–control study [J]. Crit Care,2015,29(19):27.
[6] Choi DK,Kim WJ,Chin JH,et al. Intraoperative renal regional oxygen desaturation can be a predictor for acute kidney injury after cardiac surgery [J]. J Cardiothorac Vasc Anesth,2014,28(3):564-571.
[7] Dexter F,Ken FH,Hindman B J,et al. The brain uses mostly dissolved oxygen during profoundly hypoth ermic cardiopulmonary bypass [J]. Ann Thorac Surg,1997,63(6):1725-1729.
[8] van der Laan ME,Mebius MJ,Roofthooft MTR,et al. Cerebral and renal oxygen saturation are not compromised in the presence of retrograde blood flow in either the ascending or descending aorta in term or near-term infants with left-sided obstructive lesions [J]. Neonatology,2017, 112(3):217-224.
[9] Mehta RL,Kellum JA,Shah SV,et al. Acute kidney injury network:report of an initiative to improve outcomes in acute kidney injury [J]. Crit Care,2007,11(2):R31.
[10] Algra SO,Schouten AN,van Oeveren W,et al. Low-flow antegrade cerebral perfusion attenuates early renal and intestinal injury during neonatal aortic arch reconstruction [J]. J Thorac Cardiov Surg,2012,144(6):1323-1328.
[11] Vranken NPA,Weerwind PW,Sutedja NA,et al. Cerebral oximetry and autoregulation during cardiopulmonary bypass:a review [J]. J Extra Corpor Technol,2017,49(3):182-191.
[12] Sgouralis I,Evans RG,Gardiner BS. Renal hemodynamics,function,and oxygenation during cardiac surgery performed on cardiopulmonary bypass:a modeling study [J]. Physiol Rep,2015,3(1): e12 260.
[13] Funk D J,Kumar A,Klar G. Decreases in cerebral saturation in patients with septic shock are associated with increased risk of death: a prospective observational single center study [J]. J Intensive Care,2016,29(4):42.
[14] Nielsen HB. Systematic review of near-infrared spectroscopy determined cerebral oxygenation during non-cardiac surgery [J]. Front Physiol,2014,17(5):93.
[15] Mariscalco G,Cottini M,Dominici C,et al. The effect of timing of cardiac catheterization on acute kidney injury after cardiac surgery is influenced by the type of operation [J]. Int J Cardiol,2014,173(1):46-54.
[16] Nagaraj UD,Evangelou IE,Donofrio MT,et al. Impaired global and regional cerebral perfusion in newborns with complex congenital heart disease [J]. J Pediatr,2015,167(5):1018-1024.
[17] Bailey SM,Hendricks-Munoz KD,Mally P. Cerebral,renal,and splanchnic tissue oxygen saturation values in healthy term newborns [J]. Am J Perinatol,2014,31(4):339-344.
[18] Beck J,Loron G,Masson C,et al. Monitoring cerebral and renal oxygenation status during neonatal digestive surgeries using near infrared spectroscopy [J]. Front Pediatr,2017,14(5):140.
[19] Örmeci T,Alkan-Bozkaya T,Özyüksel A,et al. Correlation between cerebral-renal near-infrared spectroscopy and ipsilateral renal perfusion parameters as clinical outcome predictors after open heart surgery in neonates and infants:cerebral-renal NIRS and ipsilateral renal perfusion [J]. Artif Organs,2015,39(1):53-58.
[20] Westgarth-Taylor C,de Lijster L,van Bogerijen G,et al. A prospective assessment of renal oxygenation in children undergoing laparoscopy using near-infrared spectroscopy [J]. Surg Endosc,2013,27(10):3696-3704. |
|
|
|
