View clinical trials related to Sepsis.
Filter by:This study is being done to help determine whether patients with severe sepsis (overwhelming inflammation in the body as a result of an infection) lose muscle and become weak more rapidly than patients with other severe illnesses. Weakness and muscle loss that develops after a severe illness is a serious problem. Patients who develop weakness and have a decrease in muscle size often have to stay in the hospital longer and have a higher chance of dying. At the current time, it is not clear whether certain severe illnesses are more likely to cause weakness and muscle loss. This study will be done to measure the changes in muscle size and strength as a result of each patient's illness
Severe sepsis and septic shock are life threatening medical emergencies and are among the most significant challenges in critical care. Case reports and case series suggest that plasma-derived protein C concentrate may improve the outcome of patients with acquired protein C deficiency. Evidence has accumulated on the clinical relevance of the PC pathway in modulating overwhelming inflammation and preventing coagulation derangements, two key mediators of organ damage, and thus of mortality and morbidity, in sepsis. The experience collected through these studies shows that PC is safe, in that it is not associated with bleeding or severe allergic complications,and possibly useful, at least to improve the coagulation abnormalities brought about by sepsis. Unfortunately, however, all we know comes from case series or case reports or an underpowered randomized controlled study. A randomized clinical trial, adequately powered for mortality or clinically relevant outcome, is necessary to confirm PC efficacy.The aim of this study is to demonstrate that Protein C zymogen has clinically relevant implications in terms of reduction of thromboembolic events, 30 days mortality, length of intensive care and hospital stay, time on mechanical ventilation, length of ICU and hospital stay. The study will also confirm that there is no bleeding concern with the use of Protein C concentrates.The study drug will be administered in the Intensive Care Unit for 72 hours and the patients observed till ICU discharge. Telephone followup will be performed at 30 days and at one year.
The premise of this study is that enteral tranexamic acid will help to maintain small bowel integrity, which is often compromised by critical illness due to inadequate cardiovascular perfusion (i.e., shock), and that maintenance of small bowel integrity will decrease morbidity in critically ill patients.
This study is a randomized control trial assessing the impact of a simple evidence-based protocol for the treatment severe sepsis in Zambia. The intervention protocol consists of a scheduled fluid regimen, early blood culture and antibiotics, and dopamine and blood transfusion when necessary. It is hypothesized that the protocol will significantly decrease in-hospital mortality in patients with severe sepsis.
Structured web-based survey in selected hospitals with intensive care units in Berlin- Brandenburg to collect data on the overall number of blood cultures (used) and the prevalence of (positive blood cultures in patients with) CVC - associated sepsis.
The primary objective is to demonstrate that the plasma inducible nitric oxide synthase (iNOS) assay (PliNOSa® test) has an acceptable relative risk ratio for predicting the onset of sepsis within 72 hours of testing when performed on the first day a patient is admitted or transferred to the intensive care unit (ICU) and is considered to be at risk of becoming septic. The PliNOSa® test measures inducible nitric oxide synthase (iNOS) in plasma and uses a pre-determined iNOS cut-off value to identify patients at risk for the onset of the sepsis pathology.
Appropriate delivery of adequate nutrition and medications in premature infants often requires central venous access in the form of a special IV called a PICC (peripherally inserted central catheter). While a necessary feature of neonatal intensive care, PICCs pose significant risk: among the most serious of these is infection. One common, successful infection control practice used in older children and adults involves the use of a lock, in which a fluid-filled syringe is attached to the end of an IV when it is not in use in order to prevent and/or treat clotting or infection. The solution is left for some period of time and is then either withdrawn from the line or flushed into the patient. The solution could be saline, antibiotics, other antiseptics, or any combination of these. However in the premature infant, use of antibiotics as a locking compound risks leaving behind organisms resistant to treatment; antiseptics can irritate vessels and cause breakage to sensitive premature skin; saline has neither sterilization nor anti-infective properties. By contrast, ethanol neutralizes or kills most bacteria, viruses, and fungi without the risk of resistance, and because it is not externally applied there is no risk to baby skin. Ethanol-based lock protocols have been used safely and effectively in both adult and pediatric populations without adverse effects, but this has not been tested in premature babies because fluids and medication are delivered continuously: placement of a lock traditionally requires an extended pause (hours or days) in fluid and medication administration. To overcome these key limitations, a periodic, brief ethanol lock protocol was designed such that both infant exposure and interruptions to fluid and medication delivery would be minimized. The lock is practical, cheap, easy to place, and takes advantage of an existing daily pause during which IV tubing and fluids hooked up to the PICC are changed. The objective of this study is to test the hypothesis that use of a 70% ethanol lock, every 3rd day, for 15 minutes, will safely and effectively reduce PICC infection in our unit.
Patients with cirrhosis present an increased susceptibility to bacterial infections. Spontaneous bacterial peritonitis (SBP) is the most frequent infection and induces severe circulatory dysfunction associated with renal failure in about 30% of cases. Renal failure is a reliable surrogate marker of in-hospital mortality in patients with SBP or with non-SBP infections. Albumin, as an adjuvant to antibiotherapy reduces significantly the rate of renal failure, in-hospital mortality, and overall mortality (Sort P, et al. NEJM 1999). However, little is known regarding the effect of albumin administration in patients with non-SBP infections. Two recent prospective studies demonstrated that non-SBP infections are associated with impairment of the effective circulating volume and precipitate renal failure whatever the presence of ascites. The aim of this randomized clinical trial is to evaluate the effects of albumin, associated with appropriate antibiotic therapy, on occurrence or deterioration of renal failure and survival in septic (SIRS criteria required) cirrhotic patients with non-SBP infections and presenting with a Child-Pugh score > 8.
This study is to determine whether the intravenous application of 'Ⅳ-Globulin S inj. (Human Immunoglobulin G)' can reduce mortality in patients with severe sepsis or septic shock.
The purpose of this study is to determine if Selective Adsorption System for Removal of Bacterial Toxins (S.A.F.E.BT) therapy is effective in the treatment of severe sepsis.