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NCT07179276
Sepsis is a dysregulated host response to infection that leads to life-threatening organ dysfunction and represents a major healthcare problem. Septic shock is the most severe form, characterized by increased capillary permeability and vasodilation, resulting in hypotension and tissue hypoxia. Early identification and treatment of tissue hypoperfusion are pivotal components of initial resuscitation to limit progression to multiple organ dysfunction and death. The 2021 Surviving Sepsis Guidelines recommend guiding initial resuscitation by targeting decreases in serum lactate levels in patients with elevated lactate. However, although elevated lactate levels may reflect tissue hypoxia, serum lactate is not a direct marker of tissue perfusion. Hyperlactatemia may be attributable to mechanisms other than tissue hypoperfusion, such as accelerated aerobic glycolysis driven by excessive β-adrenergic stimulation or impaired clearance (e.g., in liver failure). The venous-to-arterial carbon dioxide partial pressure difference (CO₂ gap), which is inversely related to cardiac output, has been shown to reflect the adequacy of venous blood flow to remove CO₂ from tissues. The CO₂ gap is closely linked to microcirculatory blood flow during the early resuscitation phase of septic shock and may effectively identify persistent tissue hypoperfusion in shock states. A persistently high CO₂ gap during early resuscitation has been associated with significantly higher 28-day mortality and increased Sequential Organ Failure Assessment (SOFA) scores. Moreover, the CO₂ gap has been shown to respond to changes in cardiac output during inotrope infusion in patients with low blood flow, suggesting that its assessment could be useful for therapeutic adjustments. Therefore, there are compelling arguments to evaluate the usefulness of the CO₂ gap in guiding early resuscitation in patients with septic shock. The investigators postulated that CO₂ gap-guided early resuscitation may be more effective in improving outcomes than lactate-guided resuscitation.
NCT07126574
This prospective diagnostic accuracy study evaluates the performance of presepsin and C-reactive protein (CRP) as early biomarkers for suspected sepsis in adult burn patients. From January 2021 to December 2022, 370 patients with ≥20% total body surface area burns admitted to the Burn Intensive Care Unit at Hallym University Hangang Sacred Heart Hospital were screened; 221 met inclusion criteria. At each clinical suspicion of sepsis (≥2 SIRS criteria), venous blood was drawn for simultaneous measurement of presepsin (via chemiluminescent immunoassay) and CRP (via immunoturbidimetric assay). Diagnostic accuracy will be quantified by sensitivity, specificity, positive/negative predictive values, and area under the ROC curve. The goal is to determine whether presepsin outperforms CRP for early sepsis detection in severe burn patients.
NCT06735365
We divided patients in 2 groups. First group was the patients who received Oxiris filters during CRRT. Second group was the patiens who have received CRRT filters other than Oxiris. We compared the lab parameters (Urea, Creatinin, Lactate, ABG parameters and SOFA escore with together.