View clinical trials related to Sepsis.
Filter by:Sepsis, cardiac arrest and multiple trauma are potentially life-threatening conditions and common reasons for intensive care unit (ICU) admission. The aim of this study is to investigate the role of the signaling substance serotonin in blood in these conditions.
Retrospective observational study to develop a Machine Learning Algorithm to evaluate parameters collected from routine data for the diagnosis of sepsis and septic shock and their influence on time to diagnosis and patient outcome.
Continuous renal replacement therapy is widely used in intensive care medicine, which is known as an alternative therapy to save injured kidney . Anticoagulation is an important part of this therapy. An insufficient anticoagulation would cause a poor curative effect of CRRT. Hemorrhageļ¼heparin-induced thrombocytopenia (HIT), citrate accumulation, acidosis ad filter extra-cost usually happened on anticoagulation during CRRT. Therefore a new effective anticoagulation of CRRT needs to be carried out. Nafamostat Mesylate (NM) is a new anticoagulant. This serine protease inhibitor with broad spectrum can inhibit kinds of enzymes on the process of coagulation. NM is mainly rapidly decomposed in the liver and also removed by dialysis or filtration. The elimination half life of is only 8 minutes. If NM is applied as a regional anticoagulant, approximate 40% NM is removed by dialysis and / or convection in cardiopulmonary bypass circuit, and then rapidly degraded by esterase in liver and blood, which ensures security in patients with bleeding tendency. Based on the information above, the investigators designed an observational clinical study aimed to testify that NM would have equivalent anticoagulant results compared with those traditional ways and might even have a better effect than traditional anticoagulant therapy.The study team has investigated the current situation of CRRT in Shaanxi province in China through a cross-sectional survey last year. The survey involved 74 hospitals in Shaanxi province and the results basically illustrated a real status of CRRT. These scientific results helped investigators to design this multi-center, parallel, controlled, non intervention study and real world study.
Aim: This study will test whether treatment of central line-associated bloodstream infections (CLABSI) with hydrochloric acid lock therapy (HALT) can significantly reduce the risk of treatment failure (comprising failure to clear initial infection, relapse of infection, or reinfection) in patients treated for cancer or hematologic diseases. Study design: A multicentre, double-blinded, randomized controlled trial. Patient population: Patients (0-100 y) with cancer or a hematologic disorder and a CLABSI treated at Copenhagen University Hospital, Aarhus University Hospital, or Odense University Hospital, Denmark. Randomization: Patients are equally assigned (1:1) to receive either HALT or placebo (normal saline). In addition to the study intervention, patients in both arms will receive standard systemic antibiotic therapy. Sample size: A target population of 250 patients
AKI develops frequently in patients hospitalized in the intensive care unit, and the biggest risk factor is sepsis. Creatine, which is traditionally used in the diagnosis of AKI, is affected by many factors, causes the diagnosis to be delayed, and its effect in showing the prognosis is limited. Therefore, there is a need to search for new parameters for early diagnosis and prediction of prognosis. Although many biomarkers studied in blood and urine have been reported in the literature, NGAL has been the most emphasized in terms of both diagnosis and prognosis. Although there are publications on the use of the renal resistive index in the diagnosis in new studies, the place of RRI in the diagnosis has not been determined exactly, and its effect on the prognosis has not been studied. In our study, renal resistive index will be measured by renal ultrasonography at the bedside in patients with sepsis at the time of diagnosis, and NGAL will be studied from the blood of the patients, and their values will be compared in terms of detecting patients with AKI in sepsis and showing prognosis. In summary, if the renal resistive index is superior to serum NGAL and parameters such as creatinine level in showing the diagnosis and prognosis of AKI; Early planning of the patient's treatment with a bedside and non-invasive method will also reduce the cost, considering that ultrasonography is now indispensable for all intensive care units.
The purpose of this study was to investigate the biochemical and clinical effects of electro-acupuncture in patients with sepsis.
a single blinded randomized controlled clinical trial that was conducted to evaluate the role of zinc supplementation in improving the outcome of infants and children with sepsis in pediatric intensive care unit.
Having bacteria in the blood can be very dangerous. This is called bacteraemia (or bacteremia) or bloodstream infection. It can lead to problems across the whole body, which is what happens in sepsis. Bacteria called Staphylococcus aureus (S. aureus) cause one kind of bacteraemia. Up to a third of people with this condition die within three months, even with antibiotics. One reason for such severe problems is that the bacteria can spread almost anywhere in the body, and hide in places where they are very hard to find. When people with S. aureus bacteraemia come into hospital and have had antibiotics, doctors sometimes cannot tell if they still have an infection source (called a 'focus') hiding in their body. The focus can be like an abscess and may need removing or the pus draining out. A focus might be obvious, if there is pain or swelling, or it might be hidden and deep. If these 'foci' can be found, then doctors can treat them and this helps to cure patients. To improve survival for patients with these life-threatening infections, it is vital that doctors find the focus of S. aureus bacteraemia as quickly as possible. However, the research team do not know the best way to do this. Most patients with S. aureus bacteraemia have a chest X-ray and a scan of the heart valves. Patients may go to the scanning department lots of times while doctors try to work out where these foci are. This is uncomfortable and takes a lot of time. In about 1 in 5 cases the doctors still cannot find the focus. This is very worrying for patients, their relatives and doctors. This study has been designed by researchers, doctors and patient advocates. It aims to work out if fewer patients may die when a specific type of scan called a 'PET/CT' is done quickly, because it finds more foci. To do this the team plan to do a clinical trial in patients with S. aureus bacteraemia. Half of the patients will receive the usual tests that patients currently get and the other half will receive an extra scan as soon as possible. The patients will be chosen randomly (like the flip of a coin) to go into one of the 2 groups. A year into the trial, an independent committee will check the results to make sure the extra scan is finding more foci. If this is the case, the trial will carry on. At the end of the study, we will share the results globally. The findings are expected to change the way this dangerous condition is managed, so patients do better.
Septic shock is a clinical condition that is defined as a subset of sepsis that causes very high mortality and morbidity. Surviving sepsis campaign guideline states that the target mean arterial pressure should be 65 mmHg and above in septic shock patients. It is known that abdominal pressure increases and perfusion of intra-abdominal organs decreases in septic shock patients. With this study, we aim to investigate the effects of targeted abdominal perfusion pressure (60 mmHg and above) on renal injury, reversal of renal injury, liver functions and ultimately mortality in patients with septic shock.
The sublingual microcirculation is impaired in sepsis and septic shock. Sidestream dark field imaging technology has been developed into a clinical tool to help the clinician assess the microcirculation at the bedside. The ideal resuscitation fluid has not been identified. The investigators aim to use this new bedside technology to establish the microcirculation properties of two popular resuscitation fluids.