View clinical trials related to Sepsis.
Filter by:We will show in this study the impact of use the rapid diagnostic method (multiplex PCR filmArray) on clinical and pharmacoeconomic aspects among Critically Ill Patients.
The cornerstone of sepsis resuscitation is the administration of intravenous fluids (IVF) and/or vasopressors (drugs that squeeze the blood vessels to increase blood pressure) to maintain blood flow to prevent organ failure. However, there is huge uncertainty around the individual dosing of these drugs in an individual patient, partially due to high sepsis heterogeneity. The current guidelines provide recommendations at a population-level but fail to individualise the decisions. Wrong decisions lead to poorer outcomes and increased ICU-resource use. A tool to personalise these medications could improve patient survival. The investigators have developed a new method to automatically and continuously review and recommend the correct dose of these medications to doctors, which was created using artificial intelligence (AI) techniques applied to large medical databases. The method used is called reinforcement learning, and we call the technology the "AI Clinician". In the AI Clinician XP1, the investigators tested the safety of the AI Clinician when running in "shadow mode", i.e. in pseudonymised batches of patient data presented to off-duty ICU clinicians. This enabled the investigators to 1) develop methods and software to connect to real-time electronic health records (EHR); 2) check the safety of the algorithm when used in a contemporary UK ICU patient cohort. In XP2, the AI Clinician will be running in real-time on dedicated computers at the bedside of actual patients in 4 ICUs across 2 NHS Trusts (Three ICUs at ICHT and one ICU at UCLH).
Determine Treatment outcome with antibiotic use and its resistance pattern among neonatal sepsis patients
The goal of this clinical trial is to evaluate regional ventilation distribution in patients admitted to the intensive care unit after emergent laparotomy due to abdominal sepsis. The main question it aims to answer is: • evaluate if patients admitted after an open abdomen strategy have a different regional ventilation distribution compared to patients in which abdomen is closed at the end of the procedure Participants will undergo non-invasive monitoring (esophageal pressure and electrical impedance tomography) and an blood gas analysis samples. Researchers will compare open abdomen group and closed abdomen group to see if the ventilation distribution pattern is different.
Sepsis has emerged as one of the important life-threatening infectious diseases with high morbidity and mortality. Sepsis-associated kidney injury (SAKI) is one of the most common and serious complications of sepsis. It has been found that intestinal flora may affect the occurrence and development of a variety of diseases, and may also affect the pathogenesis of multiple SAKI, which is also regulated by host genetic factors. Therefore, the investigators speculate that gut microbiota composition may be associated with susceptibility to SAKI, and there are no studies reporting the association between gut microbiota and SAKI. The investigators intend to carry out a multicenter study in conjunction with the Department of Intensive Care of Qinghai Provincial People's Hospital. The structure and function of intestinal flora in septic patients with renal injury and septic patients less susceptible to renal injury are studied by 16S rDNA amplicon sequencing technology. The differences in composition, diversity and structural stability of intestinal flora between the two groups are analyzed to explore the genera that play a key role in the occurrence of the disease. By analyzing the differences between renal injury and inflammation levels in each group, the correlation between intestinal flora and SAKI, the possible influencing links involved, and the related factors affecting the prognosis of SAKI were revealed. The results of this study are helpful to further elucidate the pathogenesis of SAKI and provide new ideas and methods for the prevention and treatment of SAKI.
The aim of our study was to find the frequency of thrombocytopenia and its severity in neonates with sepsis
In septic shock, dysregulated host responses to pathogens lead to cytokine storms that damage host tissues and organs, further contributing to the development of organ dysfunction and increased mortality. For sepsis, blood purification can remove inflammatory factors in sepsis by filtration or adsorption, so as to achieve the purpose of reducing inflammatory mediators in the body. However, there are few prospective randomized controlled studies in children. Therefore, this study intends to compare the efficacy and prognosis of different membrane on children with sepsis through a perspective cohort study, so as to provide a corresponding basis for the treatment of children with sepsis blood purification.
Sepsis is a life-threatening organ dysfunction caused by the host's maladjusted response to infection. It is one of the common clinical critical diseases, often accompanied by multiple organ failure, immune imbalance and high mortality. Sepsis is a syndrome of physiological, pathological and biochemical abnormalities caused by infection. Its incidence rate and prevalence have been on the rise in the past few years. Sepsis has greatly endangered the lives and health of the public. Among them, ARDS is a fatal complication of sepsis and a common critical illness syndrome in ICU. At present, the conventional treatment for ARDS caused by sepsis is still limited to indirect supportive therapy such as primary disease treatment, infection control, mechanical ventilation support, and nutrition improvement, lacking specific direct treatment methods. So far, the drug treatment effect of ARDS at home and abroad is not satisfactory. Therefore, it has become an urgent task to find a new treatment strategy to alleviate ARDS. Neutrophil elastase inhibitors can reversibly and competitively inhibit the release of neutrophil elastase, inhibit the activation of neutrophils and the infiltration of inflammatory cells in the lungs, alleviate the release of inflammatory mediators, and thus improve respiratory function, which has a good protective effect on various experimental ARDS. However, the efficacy of neutrophil elastase inhibitor represented by sivelestat sodium in the treatment of ARDS has reached a relatively consistent positive conclusion in animal experiments, while the results of clinical studies are different. These differences in clinical research still need further analysis, research and verification in clinical trials. At present, the clinical studies of neutrophil elastase inhibitors in the treatment of sepsis induced ARDS are very few, and there is a lack of related prospective randomized controlled clinical studies. Therefore, further prospective clinical trials are needed to evaluate the therapeutic effect of neutrophil elastase inhibitors on sepsis induced ARDS patients. This study is intended to determine whether neutrophil elastase inhibitor can reduce the mechanical ventilation time, Murray lung injury score, ICU hospitalization time and 28-day mortality of septic ARDS patients compared with the control group through a single center randomized controlled trial, so as to provide a new basis for the treatment strategy of septic ARDS patients.
The goal of this prospective interventional study is to evaluate the impact of antibiotic prophylaxis on bloodstream infections after liberation of extracorporeal membrane oxygenation therapy. The main questions aims to answer are: • does application of vancomycine prior to ECMO liberation have an impact of bloodstream infections? Participants will get 1 dose of vancomycine I.V. (15-20 mg per kgKG) prior to liberation of ECMO. Researchers will compare this interventional group to a group without antibiotic prophylaxis.
This is a prospective, multinational, multicentre, randomised, parallel-group, open-label study to assess the safety, tolerability and performance of the NucleoCapture extracorporeal apheresis device in the reduction of circulating cell-free DNA (cfDNA)/Neutrophil Extracellular Traps (NETs) in sepsis patients.