학술논문
The Relationships of Cerebral and Somatic Oxygen Saturation with Physiological Parameters in Pediatric Cardiac Surgery with Cardiopulmonary Bypass: Analysis Using the Random-Effects Model
Original Article
Original Article
Document Type
Academic Journal
Author
Source
Pediatric Cardiology. February 2021, Vol. 42 Issue 2, p370, 9 p.
Subject
Language
English
ISSN
0172-0643
Abstract
Author(s): Masataka Yamamoto [sup.1] [sup.2], Toshihiro Mori [sup.1], Takayuki Toki [sup.1], Yusuke Itosu [sup.1], Yasunori Kubo [sup.1], Isao Yokota [sup.3], Yuji Morimoto [sup.1] [sup.2] Author Affiliations: (1) grid.412167.7, 0000 0004 [...]
Recently, tissue oxygenation in pediatric heart surgery is measured by using near-infrared spectroscopy. Monitoring of cerebral oxygen saturation (ScO.sub.2) is most common but that of somatic tissue oxygen saturation (SrO.sub.2) is also gradually becoming widespread. However, the value of their monitoring is not well established. One of the reasons for this may be that the physiological factors affecting ScO.sub.2 and SrO.sub.2 have not been sufficiently clarified. Accordingly, we prospectively observed the changes in ScO.sub.2 and SrO.sub.2 simultaneously throughout cardiac surgery with cardiopulmonary bypass (CPB) in children weighing under 10 kg and evaluated their relationships with physiological parameters by using the random-effects model. ScO.sub.2 and SrO.sub.2 were measured with an INVOS 5100C (Somanetics, Troy, MI, USA). The random-effects analysis was applied for ScO.sub.2 and SrO.sub.2, as dependent variables, and seven physiological parameters (mean blood pressure, central venous pressure, rectal temperature, SaO.sub.2, hematocrit PaCO.sub.2, and pH) were entered as independent covariates. The analysis was performed during the pre-CPB, CPB, and post-CPB periods. Next, the same analysis was performed by dividing the patients into univentricular and biventricular physiological types. Forty-one children were evaluated. Through the whole surgical period, ScO.sub.2 correlated strongly with mean blood pressure regardless of the physiological type. On the other hand, the contribution of mean blood pressure to SrO.sub.2 was weak and various other parameters were related to SrO.sub.2 changes. Thus, the physiological parameters affecting ScO.sub.2 and SrO.sub.2 were rather different. Accordingly, the significance of monitoring of cerebral and somatic tissue oxygen saturation in pediatric cardiac surgery should be further evaluated.
Recently, tissue oxygenation in pediatric heart surgery is measured by using near-infrared spectroscopy. Monitoring of cerebral oxygen saturation (ScO.sub.2) is most common but that of somatic tissue oxygen saturation (SrO.sub.2) is also gradually becoming widespread. However, the value of their monitoring is not well established. One of the reasons for this may be that the physiological factors affecting ScO.sub.2 and SrO.sub.2 have not been sufficiently clarified. Accordingly, we prospectively observed the changes in ScO.sub.2 and SrO.sub.2 simultaneously throughout cardiac surgery with cardiopulmonary bypass (CPB) in children weighing under 10 kg and evaluated their relationships with physiological parameters by using the random-effects model. ScO.sub.2 and SrO.sub.2 were measured with an INVOS 5100C (Somanetics, Troy, MI, USA). The random-effects analysis was applied for ScO.sub.2 and SrO.sub.2, as dependent variables, and seven physiological parameters (mean blood pressure, central venous pressure, rectal temperature, SaO.sub.2, hematocrit PaCO.sub.2, and pH) were entered as independent covariates. The analysis was performed during the pre-CPB, CPB, and post-CPB periods. Next, the same analysis was performed by dividing the patients into univentricular and biventricular physiological types. Forty-one children were evaluated. Through the whole surgical period, ScO.sub.2 correlated strongly with mean blood pressure regardless of the physiological type. On the other hand, the contribution of mean blood pressure to SrO.sub.2 was weak and various other parameters were related to SrO.sub.2 changes. Thus, the physiological parameters affecting ScO.sub.2 and SrO.sub.2 were rather different. Accordingly, the significance of monitoring of cerebral and somatic tissue oxygen saturation in pediatric cardiac surgery should be further evaluated.