View clinical trials related to Sepsis Syndrome.
Filter by:Sepsis is a condition with a high mortality. Septic patients are frequently difficult to identify because of their non-specific presentations. There is also a low sensitivity of clinical judgment among health care personnel, and of existing screening tools, which are in turn typically based on vital parameters. Despite prior research, no unique sepsis biomarker has been identified so far. There is a need for new strategies to identify sepsis which do not rely on vital parameters and traditional laboratory blood tests alone. The hypothesis of the investigators is that a combination of clinical variables measurable in the ambulance can be used to predict sepsis. The aim of the current study is to determine the predictive value of keywords related to symptom presentation, vital parameters and point-of-care (POC) blood tests, alone and in combination, with respect to the outcome sepsis. The study is performed in the Stockholm ambulance setting from April 2017. A total of 956 adult non-trauma patients will be included.
Mitochondria are organelles (a specialized subunit of a cell) responsible for providing cells with energy. For reasons not yet understood, mitochondria will release their DNA into blood in response to cellular injury or cell death. With a simple blood draw, investigators can measure the amount of mitochondrial DNA in a patient's blood. The investigators' hypothesis, is that mitochondrial DNA can be used as a surrogate marker of cellular injury to predict patient outcomes. The investigators intend to test their hypothesis by measuring mitochondrial DNA in adult patients presenting to the Emergency Department with sepsis (a life-threatening condition due to an infection) and observing their hospital course.
Nociceptin is a protein found in the body, with a number of functions in the central nervous system, blood vessels and the gut. There is evidence that it may have a role in controlling the immune response to infection, and may act as a link between the brain and immune system. In infection, or after surgery, there is an increase in nociceptin, and subjects greater elevations of nociceptin have a poorer outcome. There is evidence that cells of the immune system may produce nociceptin, although it is not yet known which cells are capable of producing it, and what "switches on" production. This study aims to determine 1. Which cells of the immune system can produce nociceptin 2. If there is a difference in the ability to produce nociceptin between healthy volunteers and patients with severe infections
Presepsin (formerly CD14), is a glycoprotein receptor occurring at the surface of monocytes/macrophages. CD14 binds to lipopolysaccharide (LPS) complexes and LPS binding protein (LPB), which triggers the activation of toll-like receptor 4 (TLR4), resulting in the production of numerous pro-inflammatory cytokines. Following Presepsin activation by bacterial products, the CD14 complex is released in the circulation as its soluble form (sCD14), which in turn is cleaved by a plasma protease to generate a sCD14 fragment called sCD14-subtype (sCD14- ST). Plasma levels of sCD14 can be measured using an automated chemo-luminescent assay (PATHFAST).
Activation of blood platelets is a typical finding in patients with systemic inflammation and sepsis.They seem to mediate key pro-inflammatory mediator secretion, immune-cell activation while their adhesion to the endothelium enhances the pro-coagulatory activity of endothelial cells impairing microcirculation thus, may lead to multiple organ dysfunction. However, the exact effects of bacterial products on platelet function have not been found to be consistent and may vary according to the species, the timing of the study, and the pathogenesis of sepsis. Data vary, including both increased and decreased platelet reactivity and aggregation among patients with sepsis compared to healthy controls. Defining platelet's behaviour during sepsis is particularly important in view of recent findings revealing potential association between antiplatelet therapy and reduction in short term mortality, incidence of acute lung injury and intensive care unit admission in critically ill patients.This study aims to measure P2Y12 mediated platelet reactivity, -using the point-of-care P2Y12 VerifyNow assay, in platelet reactivity units (PRU)- along different stages of sepsis, including bacteremia/uncomplicated infection, sepsis, severe sepsis and septic shock. Subgroup follow up of patients going along different stages will also be performed. At the end of this study analysis of clinical and laboratory findings in correlation with platelet reactivity will be performed to assess platelet aggregation during sepsis.
It is clearly shown that patients in the Intensive care Unit (ICU) with severe sepsis or multi organic failure are very susceptible to develop neuromuscular complications. That can be attributed to a hyper catabolic state, general inflammation and immobilization. This can leads a significant muscle wasting, polyneuropathy and/or myopathy. These alterations have been defined with the term Intensive Care Acquired Weakness (ICUAW) and can leads important functional squeals and impaired quality of life for months, years and in some cases irreversibly. To overcome these complications, early activation by physiotherapy becomes an important tool. This type of treatment has been show to be feasible, safe and improves the functional capacity of patients. In addition to a reduction in the duration of ICU and hospital stay and improved quality of life for patients. The objective of this study is to demonstrate that the early and active physical activity in patients with severe sepsis can limit the loss of muscle mass and complications related to this type of damage. Procedures: Patients or relatives will be asked to participate in the study. If a positive response is done, patients will be randomized in an intervention or control group. A baseline evaluation will be performed during the first day of study admission. That includes a physical exploration, electrophysiological studies, skeletal muscle histological/biochemical evaluations and monitoring of blood biomarkers and others clinical outcomes will be registered. Intervention will be divided in a morning and afternoon times, patient will be positioned in chair or bed and mobilized by physiotherapist. As usual, all patients will be attaining manual mobilization for 20 minutes twice a day. Only for intervention group, additional cycle-ergometer exercise will be performed for 30 minutes at better performance achieved and tolerated for patient. All vitals parameters will be strictly controlled before, during and after intervention. The same baseline evaluation will be repeated after day 7 and clinical outcomes will be registered until ICU discharge.
The purpose of this study is to determine if levels of ischemia modified albumin (IMA) in blood are elevated in patients with suspected infection and are predictive of severity of illness in patients with sepsis. In order to compare subjects with infection to those without infection who are representative of the ED population at each site, a group of non-infected control patients will be enrolled. Each hospital will enroll subjects with age (by decade) and sex matched controls to reflect the population of subjects suspected of infection.
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.
We study whether an increased proportion of omega-3-fatty acids (contained in fish oil) in the nutrition of critically ill patients reduces systemic inflammation.
Sepsis is a serious condition where there is inflammation and damage to body tissue, usually caused by an infection. This infection can lead to decreased function of vital body organs and in some cases may lead to permanent health problems or death. Much of the injury is due to endotoxin, a harmful substance produced by certain types of bacteria. An endotoxin antagonist is designed to block the effects of endotoxin. This study is designed to study the safety and efficacy when treating patients with severe sepsis.