View clinical trials related to Severe Sepsis.
Filter by:The ARISE RCT is a multi-centre, randomised, controlled trial of EGDT compared to standard care in patients with severe sepsis presenting to the ED. The study will be conducted in multiple sites with 1600 patients enrolled into the study. Hypothesis to be tested: EGDT, compared to standard Australasian resuscitation practice, reduces 90-day all-cause mortality in patients presenting to the ED with severe sepsis.
- By tradition hydroxyethyl starch (HES) is used to obtain fast circulatory stabilisation in critically ill. - High molecular weight HES may, however, cause acute kidney failure in patients with severe sepsis. - Now the low molecular weight HES 130/0.4 is the preferred colloid in Scandinavian intensive care units (ICU) and 1st choice fluid for patients with severe sepsis. - HES 130/0.4 is largely unstudied in ICU patients. - This investigator-initiated Scandinavian multicentre trial will be conducted to assess the effects of HES 130/0.4 on mortality and endstage kidney failure in patients with severe sepsis. - The trial will provide important data to all clinicians who resuscitate septic patients.
In this study the investigators aim to test if C-reactive protein (CRP)or procalcitonin(PCT) - guided strategy allows to reduce the antibiotic use in patients wiht severe sepsis and septic shock. Therefore, the safety of this intervention will be carefully measured.
Severe sepsis or septic shock with acute kidney injury shows high mortality in intensive care unit. A few studies have shown CRRT relating the clinical improvement seems to be related to the early initiation of therapy. But there is no consensus for proper time of CRRT may improve the prognosis. The study is a prospective randomized one center trial comparing two treatments in patients suffering from septic shock complicated with acute renal failure admitted to ICU, treated either early by CRRT (35 ml/kg/h) or by conventional RRT.
Severe sepsis and septic shock are causes of admission in intensive care units.Modification of natriuretic peptid including NT-proBNP and cardiac autonomic nervous system alteration are reported in sepsis shock and severe sepsis and seems to link to patient prognosis admitted to intensive care units.
Severe sepsis and septic shock are diseases of infectious origin with a high risk of death. The purpose of this study is to determine whether the intravenous application of selenium (given as sodium-selenite) can reduce mortality in patients with severe sepsis or septic shock. Additionally, it is investigated, whether the measurement of procalcitonin - a marker of infection - can be used to guide anti-infectious measures in this disease.
Severe infection in the intensive care unit is common accounting for about 10% of admissions and has a death rate of approximately 40-50%. It is almost always associated with significant reductions in blood pressure. Administration of fluid often in large volumes is essential to normalize blood pressure and prevent failure of organs and death. Two common classes of fluid solutions are crystalloid fluids (salt based, normal saline) and colloid fluids (protein based, albumin). Due to its properties, the albumin fluid may remain in the vascular space better than the normal saline solution. Hence, there may be faster attainment of normal blood pressure as well as a reduction in failed organs and death. Preliminary clinical trial data suggests a potential for benefit with albumin in this setting but these findings require confirmation in a large clinical trial. There are few data to explain how albumin may exert its protective effects and lead to better outcomes for patients with severe infections. We will conduct a clinical study that will examine potential biological mechanisms for albumin's protective effects in 50 patients across 6 Canadian academic hospitals. We will also examine our ability to successfully recruit patients into this trial. This study will provide information that will help to understand the biological mechanisms of albumin in severe infection. The information gained will guide the investigative team for future fluid related mechanistic questions. The study will also provide essential information that will aid in the design and conduct of the future large clinical trial that will examine death as its primary outcome.
sRAGE, the soluble form of the receptor for advanced glycation end products, is a novel marker of alveolar epithelial type I cell injury, but is also involved in acute systemic inflammation. The purpose of this observational prospective study is to determine whether sRAGE could be used in an ICU setting as a potential diagnostic and prognostic marker during ALI/ARDS, regardless of associated severe sepsis or septic shock.
The overall hypotheses of this project is that severe sepsis is associated with endothelial dysfunction; that endothelial dysfunction, in turn, is predictive of subsequent organ failure and death; and that protocolized resuscitation attenuates endothelial cell (EC) dysfunction and improves patient survival.
The objective of this pilot study is to estimate a procedure where the biological samples routinely obtained at the site of suspected infection could be guided by the early realization of a TEP with FDG coupled to scanner X, in patients hospitalized in ICU for severe sepsis of unspecified etiology.