Zentralblatt für Chirurgie
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An adequate approach to surgically induced sepsis needs an early and targeted antibiotic therapy in addition to focus sanitation. The PCR-based LightCycler Septifast test can detect 90 % of the sepsis-associated microoganisms (e. g., Gram-positive, Gram-negative bacteria, fungi) within only a few hours. ⋯ This first systematic use of the time-saving LightCycler Septifast test shows that it can detect bacteremia in surgical patients at the ICU, with, in part, negative blood cultures. Positive Septifast test results which cannot be explained by clinical symptoms, occur rarely. The detection of pathological microbes with the Septifast test provides additional findings (72.2 %) for therapeutic decision-making, which can be obtained considerably more rapidly in comparison with conventional microbiological cultures (a few hours versus 2 days). For surgical patients with SIRS and subsequent need of intensive care, a Septifast test should be considered. In conclusion, it is recommended that the test should be further and systematically investigated.
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Comparative Study
[Microcirculatory failure of sublingual perfusion in septic-shock patients. Examination by OPS imaging and PiCCO monitoring].
Haemodynamic monitoring of septic patients is impeded by the discrepancy between the macrohaemodynamics and the microcirculation of internal organs. Pulse contour analysis (PiCCO) provides new parameters for an improved assessment of the volume status of critically ill patients. However, changes in regional circulation, in particular those affecting the splanchnic perfusion, have proven to be especially important. The aim of our study was to compare macrohaemodynamic parameters (PiCCO) with microcirculation (OPS imaging) in severely septic patients with multiple organ failure. ⋯ According to our findings, data acquired through PiCCO monitoring may be used for a rough estimation of the microcirculation during severe sepsis and multiple organ failure. For an assessment of the local conditions of perfusion, however, there are limits in the use of the parameters that were the object of our research. For the measurement at localisations which are accessible non-invasively and representative of the splanchnic perfusion, OPS is the more accurate method for characterisation of the microcirculation, although a more extensive and time-consuming analysis is needed.