Erschienen in:
01.10.2013 | Original Research
Association of intraoperative tissue oxygenation with suspected risk factors for tissue hypoxia
verfasst von:
R. J. Spruit, L. A. Schwarte, O. W. Hakenberg, T. W. L. Scheeren
Erschienen in:
Journal of Clinical Monitoring and Computing
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Ausgabe 5/2013
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Abstract
Tissue hypoxia may cause organ dysfunction, but not much is known about tissue oxygenation in the intraoperative setting. We studied microcirculatory tissue oxygen saturation (StO2) to determine representative values for anesthetized patients undergoing urological surgery and to test the hypothesis that StO2 is associated with known perioperative risk factors for morbidity and mortality, conventionally monitored variables, and hypotension requiring norepinephrine. Using near-infrared spectroscopy, we measured StO2 on the thenar eminence in 160 patients undergoing open urological surgery under general anesthesia (FiO2 0.35–0.4), and calculated its correlations with age, risk level for general perioperative complications and mortality (high if age ≥70 and procedure is radical cystectomy), mean arterial pressure (MAP), hemoglobin concentration (Hb), central venous oxygen saturation (ScvO2), and norepinephrine use. The time averaged StO2 was 86 ± 6 % (mean ± SD). In the multivariate analysis, Hb [standardized coefficient (SC) 0.21, p = 0.003], ScvO2 (SC 0.53, p < 0.001) and high risk level (SC 0.06, p = 0.03) were significant independent variables correlated with StO2. StO2 was partly dependent on MAP only when this was below 65 mmHg (lowest MAP SC 0.20, p = 0.006, MAP area under the curve <65 mmHg SC 0.03, p = 0.02). Finally, StO2 was slightly lower in patients requiring norepinephrine (85 ± 6 vs. 89 ± 6 %, p = 0.001). Intraoperative StO2 in urological patients was comparable to that of healthy volunteers breathing room air as reported in the literature and correlated with known perioperative risk factors. Further research should investigate its association with outcome and the effect of interventions aimed at optimizing StO2.