View clinical trials related to Shock, Septic.
Filter by:Use of brain natriuretic peptide to evaluate the cardiac function in the course of meningococcal septic shock or severe sepsis.
This is the statistical analysis plan for an individual patient data meta-analysis (IPDMA) of three EGDT clinical trials.
Study Hypothesis Enhancement of Th-1 response with the help of a poly TLR agonist (Mw) is likely to increase survival in patients with severe sepsis. Objectives To study whether immunomodulation with Mycobacterium Mw helps in improving survival and the recovery of organ function in patients with severe sepsis. This will be assessed with the help of the following - Mortality in the two arms - Daily SOFA scores - Ventilator free days - Time-to-vasopressor withdrawal - ICU length of stay - Hospital length of stay METHODS This will be a proof of the concept study to assess the effect of Mycobacterium w in combination with standard therapy versus standard therapy alone on the inflammatory profile in sepsis due to gram negative infection. A total of 25 patients will be enrolled in each group. The patients will be randomized in balance to receive either test drug or its placebo along with the standard of care
There is a paucity of data on the timing and role of enteral nutrition in septic shock. The primary aim of this study is to conduct a phase III single-center pilot randomized controlled trial comparing early trophic enteral nutrition to 'no enteral nutrition' in mechanically ventilated septic shock patients to determine feasibility.
Sepsis is one of the most frequent reasons for referral to emergency departments (EDs) worldwide. The incidence of sepsis is likely to rise in the upcoming years. Sepsis has a tendency to become more serious when left untreated with a high mortality rate, exceeding even those of myocardial infarction and stroke. Therefore, much effort has been put in to start with appropriate therapy as early as possible. Early goal-directed therapy (EGDT) in the emergency department with fluid resuscitation, administration of vasopressors/vasodilators and intravenous antibiotics in patients with severe sepsis and septic shock has indeed decreased mortality substantially. Emergency medical services (EMS) personnel have already made a significant difference in improving care for patients with acute coronary syndrome, multiple trauma and stroke. Patients with severe sepsis or septic shock could also benefit greatly from timely pre-hospital care. Earlier recognition and initiation of treatment by EMS personnel may improve survival even more. Interestingly, the first hour of ED presentation seems to be the most critical hour. Administration of antibiotics and fluid resuscitation in the pre-hospital setting will reduce the time to administration substantially. In adults, to the best of our knowledge, no studies on the effect of pre-hospital administration of antibiotics have been performed. In children with meningitis, some uncontrolled studies show contradictory results, most probably due to bias by severity. We propose a non-blinded randomised multicentre clinical trial study on the efficacy of early, pre-hospital intravenous administration of broad spectrum antibiotics (ceftriaxone), which are effective against a wide variety of infectious pathogens that cause most common community-acquired infections) in patients referred to the ED with suspected severe sepsis or septic shock. Objective: To evaluate whether early, pre-hospital administration of antibiotics, together with training of ambulance personnel in recognizing and initiating treatment reduces 28-day mortality in patients referred to the ED with suspected severe sepsis or septic shock Study design: Non-blinded randomized multicentre clinical trial nested within a stepped wedge design Study population: All patients above the age of 18 years, with suspected severe sepsis or septic shock and transferred to the ED by ambulance, are eligible for study inclusion Intervention: prehospital antibiotics (ceftriaxone 2000 mg intravenously) Main study parameters/endpoints: 28-day mortality, hospital length of stay, admission to intensive or medium care unit (ICU/MC), time to administration of antibiotics. Follow up of one year. QoL after one month after discharge.
The purpose of the SQUEEZE Trial is to determine which fluid resuscitation strategy results in the best outcomes for children treated for suspected or confirmed septic shock. In this study, eligible children will be randomized to either the 'Usual Care Arm' or the 'Fluid Sparing Arm'. Children will receive treatment according to current ACCM Septic Shock Resuscitation Guidelines, with the assigned resuscitation strategy used to guide administration of further fluid boluses as well as the timing of initiation and escalation of vasoactive medications to achieve ACCM recommended hemodynamic targets.
Haemodynamic optimization is of paramount importance in septic shock, but is really consensual and standardized during the first 6 hours of treatment. Haemodynamic treatment including fluid loading management, vasoactive treatment and oxygen transport optimization is mainly based on expert recommendations or non-randomized trials. Recently, preload dependence indexes such as pulse pressure variation have been shown to be more accurate to predict fluid responsiveness than static indexes such as filling pressures. However, whether using preload dependence indexes changes septic shock prognostic remains to date unknown. The aim of this non-blinded randomized controlled trial is to assess whether haemodynamic optimization using preload dependence indexes and pulmonary thermodilution 1. reduces septic shock duration assessed by administration duration of vasoactive treatment (primary end point), 2. reduces regional hypoperfusion assessed by arterial lactate, 3. reduces lung hydrostatic oedema linked to excessive fluid loading (assessed by PaO2/FIO2 ratio and extravascular lung water). 4. reduces organ dysfunction (assessed by the SOFA score), ICU stay and 7 and 28 day mortality Control group is managed with an algorithm using filling pressures to drive haemodynamic treatment.
Septic shock has a high mortality risk despite the availability of various treatments. Endotoxin, that is present in the cell walls of gram-negative bacteria, is a potent trigger of innate immunity. Endotoxin leads to an activation of a cascade with an overwhelming systemic overflow of pro- and anti- inflammatory mediators at the early phase of sepsis with generalized vascular endothelial damage, tissue injury and multi-organ failure. Extracorporeal blood purification therapies aim to reduce the circulating level of endotoxin. Different extracorporeal blood purification systems are available. The oXiris™ device comprises a surface treated AN69 membrane capable to adsorb a large spectrum of plasma cytokines, such as IL-6 and HMGB1 protein. The positively charged inner surface of the membrane allows absorbing negatively charged bacterial products such as endotoxin. From an historical perspective, filters containing AN69-based membranes have been the most commonly used products for CRRT in the management of critically ill patients and a substantial volume of published data exist. Another extracorporeal endotoxin removal therapy is the hemoperfusion with ToraymyxinTM (PMX) filter, which is a cartridge selectively removing blood endotoxin. PMX is composed of polymyxin B covalently bonded to polystyrene-derivative fibres. It is well known that the polarity of the polymyxin B antibiotic binds endotoxin and has bactericidal activity. Therefore, the rationale underlying extracorporeal therapy with PMX is to remove circulating endotoxin by adsorption. - Trial with medical device
To investigate the role of initial venous lactate in predicting the severity progression to overt septic shock and 30-day mortality in non-elderly patients without hemodynamic shock who suspected to have acute infections.
Current septic shock guideline recommends fluid resuscitation as the first treatment. Vasopressors, including norepinephrine is recommended to start after achieve adequate fluid therapy. This can cause a certain duration of systemic hypotension before vasopressor is commenced. Initiation of norepinephrine together with fluid therapy soon after diagnosis of septic shock may increase blood pressure quicker than start treatment with intravenous fluid alone. The rapid restoration of perfusion pressure may improve septic shock outcome.