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Please use this identifier to cite or link to this item: http://hdl.handle.net/1942/14945

Title: Decrease in arterial CO2 tension and cerebral oxygenation during induction of therapeutic hypothermia
Authors: Meex, Ingrid
Dens, Jo
Jans, Frank
De Deyne, Cathy
Issue Date: 2012
Citation: EUROPEAN JOURNAL OF ANAESTHESIOLOGY, 29 (Supplement 49 (A29)), p. S9-S9
Abstract: Background: After cardiac arrest (CA), therapeutic hypothermia (TH) is the only therapy that improves neurological outcome and survival. However, hypothermia can alter CO2 production and solubility. This alteration can have an influence on cerebral perfusion and oxygenation in post-CA patients. The FORE-SIGHT absolute cerebral oximeter measures the levels of oxygenated and deoxygenated hemoglobin in the cerebral microvasculature. So, absolute cerebral oxygen saturation (SctO2) can be measured continuously and non-invasively. In this study, SctO2 and pCO2 was measured during induction and maintenance of TH after CA. Methods: After IRB approval, data were collected from 23 pts. TH (33 [degrees]C) was induced by endovascular or surface cooling. All pts were sedated (propofol/remifentanil) for the duration of hypothermia. NIRS-sensors were bilaterally applied to the frontotemporal area before start of TH. Arterial blood gas values were collected every hour. Results: Cerebral tissue oxygenation values started at 68% (+/- 6). SctO2-values decreased to 59% (+/- 3) within the first four hours after induction of TH. The decrease in cerebral oxygenation during induction of TH was could not be related to a change in hemodynamic parameters (MAP before induction of TH: 79 mmHg +/- 19; at 33[degrees]C: 82 mmHg +/- 9), nor to a change in SpO2 (start: 99% +/- 1; 4 h: 97% +/- 3), or pO2 (start: 136,1 mmHg +/- 73; 4 h: 119 mmHg +/- 30). However, SctO2 values showed a correlation with PaCO2. At the start of SctO2 monitoring, PaCO2 was 50,2 mmHg (+/- 9) but decreased to 36,1 mmHg (+/- 8) within four hours. Ventilatory management (tidal volume and ventilatory frequency) was not adjusted during monitoring. Conclusion: Non-invasive monitoring of cerebral oxygenation showed a decrease in SctO2 during the first hours after inducing TH post-cardiac arrest. The observed decrease in PaCO2 with ensuing cerebral vasoconstriction could be responsible for the decrease in cerebral oxygenation.
URI: http://hdl.handle.net/1942/14945
DOI: 10.1097/01.EJA.0000412475.61052.d4
ISSN: 0265-0215
Category: M
Type: Journal Contribution
Appears in Collections: Research publications

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