View clinical trials related to Shock, Septic.
Filter by:The purpose of this study is to compare the classical tactics in the treatment of septic shock (dopamine, noradrenalin and dobutamine) to the use of vasopressin as first choice pressor. Vasopressin seems to be an interesting alternative in the treatment of septic shock. To this date, available studies have showed that it could correct hyperkinetic syndrome and vasoplegia in septic shocks without noticeable side effect. It as been demonstrated that vasopressin improves renal function, as no effect on digestive organs and as no metabolic effect.
We propose to develop novel diagnostic tests for severe sepsis and community acquired pneumonia (CAP). This program, entitled Community Acquired Pneumonia & Sepsis Outcome Diagnostics (CAPSOD), is a multidisciplinary collaboration involving investigators at six organizations: NCGR; Duke University Medical Center, Durham, NC; Henry Ford Hospital, Detroit, MI; Eli Lilly and Company, Indianapolis, IN; Indiana Centers for Applied Protein Sciences, Indianapolis, IN; and ProSanos Corp., La Jolla, CA. In the United States, Community Acquired Pneumonia is the sixth leading cause of death and the number one cause of death from infectious diseases. Of the 5.6 million annual cases of CAP, 1.1 million require hospitalization for intensive therapy. Sepsis, commonly known as blood poisoning or bloodstream infection, is the tenth leading cause of death in the US and the number one cause of death in non-cardiac intensive care units. Incidence of sepsis is increasing by 9% each year and mortality rates vary between 25 and 50%. Cost to the US healthcare system exceeds $20 billion each year. In patients with suspected sepsis or early CAP, rapid identification of patients who will develop severe sepsis or CAP is critical for effective management and positive outcome. The CAPSOD study is designed to identify novel tests for early diagnosis of severe sepsis and CAP. When performed in patients at the earliest stages of disease, these tests will have prognostic value, rapidly identifying those who will have poor outcomes or complicated courses. CAPSOD will prospectively enroll patients with sepsis and CAP at Duke University Medical Center and Henry Ford Hospital. The study will use advanced bioinformatic, metabolomic, proteomic and mRNA sequencing technologies to identify specific protein changes, or biomarkers, in patient blood samples that predict outcome in sepsis and CAP. Development of biomarker-based tests will permit patient selection for appropriate disposition, such as the intensive care unit, and use of intensive medical therapies, thereby reducing mortality and increasing effectiveness of resource allocation.
Sepsis and septic shock are still important causes of mortality in intensive care medicine. Renal replacement therapy by standard volume haemofiltration is currently used, but a higher-volume haemofiltration may improve the prognosis. The study is a prospective randomized multicenter trial comparing two treatments in patients suffering from septic shock complicated with acute renal failure admitted to ICU. One group will be treated by early high volume haemofiltration (70 ml/kg/h) and the second group by standard volume haemofiltration (35 ml/kg/h). The main outcome will be one-month mortality.
Septic shock is a frequent syndrome with a 45% mortality rate despite intensive care unit (ICU) care, where free radicals may play a key role, and a >40% decrease in plasma selenium concentration is observed. Selenium is a trace element with both indirect enzymatic anti-oxidant, and direct oxidant properties. High dose of sodium selenite administration could increase antioxidant cells capacities, and reduce inflammation by a direct paradoxical pro-oxidative effect. We conduct a study to evaluate the effects of selenium treatment in comparison to placebo, in septic shock patients. Efficacy will be evaluated by the weaning time of catecholamines.
Life-threatening infection impairs bloodflow to the gut, thereby causing less delivery of oxygen. This leads to increased formation of lactic acid. The investigators hypothesize, that the more serious the condition, the higher the concentration of lactic acid will be, thus relating to the risk of multiple organ failure or death.
Norepinephrine is a drug used to increase blood pressure in patients with life-threatening infection. However, norepinephrine may limit the bloodflow to the gut, thereby causing relative lack of oxygen to the cells. This leads to increased formation of lactic acid. This study examines whether increasing the dose of norepinephrine leads to higher concentrations of lactic acid in the rectum and stomach in patients with life-threatening infection.
The purpose of this study is to determine the effect of the intensive insulin therapy on coagulation and fibrinolysis in patients affected by severe sepsis and septic shock. As a secondary endpoints the investigators will determine the effect of intensive insulin therapy on organ dysfunction and mortality of these patients.
Catecholamines infusion is a major component of septic shock management. International guidelines recommend that norepinephrine should be preferred to epinephrine, though phase III trials are lacking. The present study aimed at comparing the efficacy and safety of norepinephrine plus dobutamine to that of epinephrine in adults with septic shock.
The purpose of the study is to determine whether steroids decrease 28-day mortality in patients with septic shock.
The purpose of this trial is to determine the influence of colloid versus crystalloid volume resuscitation and of intensive vs conventional insulin therapy on morbidity and mortality of patients with severe sepsis and septic shock.