View clinical trials related to Septic Shock.
Filter by:The study aims to determine whether the infusion of DEX in septic shock can reduce in-hospital mortality, norepinephrine infusion, need and duration for mechanical ventilation, and acute kidney injury without significant adverse events.
Sepsis is the result of a complex pathological process which involves an intravascular inflammatory state, loss of vascular tone, endothelial injury, extravascular leakage, and often inefficient myocardial contractility. These affect the cardiovascular homeostasis as well as the regional perfusion and tissue oxygenation of patient. The importance of early cardiovascular support in septic patients is the reason why, for about fifteen years, the implementation of standardized resuscitation protocols has been emphasized. The Surviving Sepsis Campaign Guidelines (SSG) recommend an initial fluid resuscitation followed by use of a vasoactive agent such as norepinephrine for the treatment of patients with septic shock. To understand the impact of the hemodynamic support provided by the resuscitation strategy, the assessment of surrogate clinical parameters is pivotal. According to the current guidelines, the increase of mean arterial pressure (MAP) above 65 mmHg represents the threshold in defining patients as "stable". Although this strategy has been well established, its impact on the actual hemodynamic profile of the septic patient, remains a subject of ongoing controversy. In this scenario, the transpulmonary thermodilution technique (TPTD) allows invasive assessment of the patient hemodynamic profile in terms of fluid responsiveness, vasomotor status, or global cardiac efficiency. By using this technique, several studies highlighted a wide variability in the individual response of patients undergoing cardiovascular stabilization guided by SSG. This suggests that the implementation of a "customized" resuscitation protocol based TPTD derived parameters rather than resuscitation strategy guided by a fixed mathematic model, could be preferred. However, in daily clinical practice, the use of this advanced hemodynamic monitoring system in not routinely used, though it is often reserved in case of failure of the initial SSG-resuscitation protocol. The investigators supposed that, even if the initial resuscitative efforts were successful in achieving the SSG targets i.e. by restoring the MAP > 65 mmHg, this could still be inadequate in some patients. Accordingly, the investigators hereby will report the hemodynamic profile of patients with septic shock admitted in ICU.
The primary aim of the study would be to determine whether there is a difference in survival in the Intensive Care Unit between the group of patients with septic shock diagnosed with euthyroid sick syndrome who were treated with T3 hormone compared to the group of patients not treated with this hormone. Secondary objectives of the research would be: Compare the level of thyroid hormones between the examined groups and 1. laboratory indicators of septic shock (C-reactive protein-CRP, procalcitonin, leukocytes, acid-base status, lactates) 2. APACHE II, SOFA and SAPS II patient assessment scales, 3. inflammatory prognostic systems (ratio of CRP and albumin-modified Glasgow prognostic score-mGPS, ratio of neutrophils and lymphocytes - NLR, ratio of platelets and lymphocytes - PLR, and ratio of leukocytes and CRP, prognostic index - PI) 4. hemodynamic stability of patients (MAP, systolic and diastolic pressure) in the periods of admission T0, T3, T6, T12, T24 and every 24 hours for 4 days, 5. effect of vasoactive drugs, 6. the need for mechanical ventilation categorized as yes or no, in case - number of respirator days, 7. length of stay in the Intensive Care Unit, 8. treatment outcome categorized as 28 day survival.
Sepsis is a life-threatening organ dysfunction caused by a dysregulated host response to infection. Mortality is high and survivors frequently suffer from long-term sequelae. Extracellular histones have been identified as essential mediators in the pathogenesis of sepsis and septic shock. These toxic molecules are released by damaged cells in response to infection and high extracellular levels can induce tissue injury and multiple organ dysfunction syndrome. Extracellular histones can be neutralized by complexation with the new candidate drug called M6229, a non-anticoagulant heparin, allowing the use of elevated dose levels relative to regular unfractionated heparin. This project aims at the roll-out of a first-in-man clinical study in sepsis patients evaluating the safety, tolerability, pharmacokinetics and pharmacodynamic effects of intravenously administered M6229 in subjects suffering from sepsis.
Early identification of a patient with infection who may develop sepsis is of utmost importance. Unfortunately, this remains elusive because no single clinical measure or test can reflect complex pathophysiological changes in patients with sepsis. However, multiple clinical and laboratory parameters indicate impending sepsis and organ dysfunction. Screening tools using these parameters can help identify the condition, such as SIRS, quick SOFA (qSOFA), National Early Warning Score (NEWS), or Modified Early Warning Score (MEWS). The 2016 SCCM/ESICM task force recommended using qSOFA, while the 2021 Surviving Sepsis Campaign strongly recommended against its use compared with SIRS, NEWS, or MEWS as a single screening tool for sepsis or septic shock. We hypothesised that qSOFA has greater prognostic accuracy than SIRS and EWS (NEWS/NEWS2/MEWS).
Persistent tachycardia in sepsis or multi-organ dysfunction syndrome (MODS) is an ominous sign. This usually comes under control with judicious use of antibiotics, fluid resuscitation, sedation. Uncontrolled tachycardia in systemic inflammatory response syndrome and sepsis deprives the heart muscle of oxygen. As it progresses, insufficient heart muscle nutrition eventually leads to myocardial dysfunction. It can also present as heart failure. In acute coronary syndromes, beta blockers are used to control heart rate. However in MODS, it cannot be used due to hemodynamic instability and worsened myocardial function. Sinoatrial (SA) myocytes are the pacemaker cells in the heart. Pacemaker activity involves several ionic currents that influences spontaneous depolarization of SA node including I(f) current. The word I(f) means funny, because this current has unusual properties as compared with other currents known at the time of its discovery. It is one of the most important ionic current for regulating pacemaker activity in SA node. Ivabradine is an I(f) current inhibitor in SA node. Currently, it is the only agent shown to clinically lower heart rate with no negative inotropism or effects on conduction and contractility.so usage of Ivabradine to control tachycardia in patients with septic shock may help to improve myocardial filling and cardiac output. Marcos L.Miranda et al. found that Ivabradine was effective in reducing microvascular derangements evoked by experimental sepsis, which was accompanied by less organ dysfunction. These results suggest that ivabradine yields beneficial effects on the microcirculation of septic animals. No data found on effect of Ivabradine on the microcirculation of human. In this study the investigators will investigate the effect of Ivabradine on perfusion in capillary circulation using Cytocam video microscope, Braedius®.
Anti-infective strategy is a major public health problem. This is a before-and-after study of an anti-infectious prescription tool with a comparison of mortality at 30 days (then 3 and 6 months) between the two inclusion phases of 6 months each.
Compare the effect of volume expansion by saline versus albumin on the correction of peripheral tissue hypoperfusion by measuring Index skin recoloration time (CRT) at H0 and H1
With 25.2 million children affected and 3.4 million deaths in 2017, paediatric sepsis is the leading cause of under-five mortality worldwide and has recently been described as "significant global health threat" by the World Health Organization. In addition to early antibiotics, fluid bolus therapy (FBT) is one of the cornerstones of management, due to the theoretical improvement of cardiac output, oxygen delivery and organ perfusion. In the absence of a consensual and operational definition to date, the latest international guidelines of the Surviving Sepsis Campaign 2020 (SSC-2020), refers to children (≥ 37 weeks gestation at birth to 18 years old) with severe infection leading to cardiovascular (i.e., "septic shock") or non-cardiovascular organ dysfunction (i.e., "other sepsis-associated organ dysfunction" or former "severe sepsis"). The SSC-2020 specifies the modalities for paediatric sepsis management, particularly concerning FBT, with, for example, the preferential use of balanced crystalloids, and a target volume of 40-60ml/kg at one hour of recognition using boluses of 10-20ml/kg in children who have access to a paediatric intensive care unit (PICU) in their health system. Further, it is now well established that compliance with international guidelines is associated with improved outcomes in paediatric sepsis. Despite the importance of awareness and implementation of the SSC-2020, there are, to our knowledge, no studies evaluating its application in children. We prospectively conducted the Fluid Resuscitation for Suspected Sepsis in Paediatric Emergency Departments (FRESSPED) study in 25 hospitals over five weeks between November 2021 and March 2022, whose principal objective was to assess doctors adherence to the SSC-2020 guidelines when performing FBT in infants and children with suspected sepsis in French paediatric emergency departments.
This study is a prospective, stepped-wedge implementation trial to test the effects of implementing a Clinical Decision Support (CDS) tool for prediction of septic shock in four Emergency Departments within a pediatric healthcare network. The primary outcome will be the proportion of sepsis patients who receive guideline-concordant septic shock care after implementation of the CDS, and the secondary outcome will be time-to-antibiotic after sepsis recognition.