View clinical trials related to Sepsis.
Filter by:Procalcitonin is a protein consisting of 116 amino-acids which can rapidly rise under inflammatory conditions and sepsis. More than 20 years ago it has been shown that dipeptidylpeptidase-4 (DPP-4) cleaves procalcitonin from the n-terminus, resulting in a truncated procalcitonin-variant which consists of 114 aminoacids. Within their workgroup the investigators found that the truncated procalcitonin-variant had deleterious effects on vascular integrity during sepsis in mice. However, it is unknown if this applies also in humans. By using an ELISA-assay the investigators want to examine the ratio between native and truncated human procalcitonin during diseases accompanied with hyperprocalcitoninemia and correlate the results with clinical data.
The purpose of Opt Vanc is to evaluate the feasibility of Bayesian dose adaptation, based on a previously-developed population pharmacokinetic (PK) model and a single optimally timed PK sample, to predict vancomycin area under the curve (AUC) in critically ill children.
In the REMISE is study, we will compare blood proteins, biomarkers, and other -omics prospectively collected from patients with sepsis from two sources, i.) remnant (discarded) samples from the clinical laboratory, and ii.) prospectively collected in UPMC Presbyterian hospital research coordinator specimen collected biospecimens. Analyses will include traditional biomarkers, quantitative proteomics, metabolomics, lipidomics, transcriptomics, and pathogen genomic sequencing in both sets of samples. This data will allow the assessment of the feasibility, integrity, and scientific value of remnant samples compared to research coordinator samples collected at the bedside for mechanistic sepsis research.
This research is a clinical trial with a Randomized Controlled Trial (RCT) design. The purpose is to identify the effect of intravenous thiamine administration compared to normal saline placebo on glucagon levels and ROS levels in patients undergoing general anesthesia surgery
This study aims to evaluate the efficacy of IL-37 as a biomarker to predict mortality risk in adults with sepsis.
Neutrophil-lymphocyte ratio (NLR), as an inflammatory index, is cheap and easy to obtain, and could be widely used in hospitals at all levels. NLR is a valuable biomarker that is significantly correlated with the status of immune and inflammatory responses. In the past few years, NLR has been continuously and extensively explored in various diseases, and the research progress is considerable. In cardiovascular disease, NLR can predict arrhythmia and short - and long-term mortality in patients with acute coronary syndrome. NLR may be associated with heart failure and valvular heart disease. Moreover, NLR has been shown to be associated with respiratory diseases (such as chronic obstructive pulmonary disease), immune diseases (rheumatoid arthritis and systemic lupus erythematosus), and digestive diseases (acute appendicitis, hepatocellular carcinoma, liver fibrosis, and cirrhosis). Importantly, the study of NLR in sepsis has received much attention in recent years. A 2019 meta-analysis concluded that peripheral white blood cell ratios, including NLR, lymphocyte-to-monocyte ratio (LMR), and platelet-to-lymphocyte ratio (PLR), are associated with clinical outcomes in sepsis and are useful biomarkers of infection. They recommended that NLR be evaluated in future hierarchical models, To clarify its relationship with NLR and clinical outcome and the prognostic value of NLR, it is worth mentioning that NLR has also been found to have the ability to predict the outcome of sepsis. It has been shown that NLR, together with other inflammatory parameters, might be a marker for early detection of sepsis in the intensive care unit. However, a large body of evidence demonstrating the association between NLR and adverse clinical outcomes in sepsis remains controversial. Another study concluded that "no association was found between NLR and 28-day in-hospital mortality in patients with sepsis". In addition, the reliability of NLR on admission in predicting the prognosis of critical illness was also lower than that of traditional markers (including CRP, PCT, serum lactic acid and APACHEā ” score). This study aimed to retrospectively investigate the early predictive value of inflammation-related parameters in-hospital mortality of septic patients.
Randomised trial comparing the efficacy and feasibility of using a sterile closing pack to reduce postpartum sepsis
With the rapid development of intensive care medicine, the mortality of patients with sepsis has decreased over the past decade, but it is still the leading cause of death in intensive care unit (ICU). As an important immune and metabolic organ, the liver plays a crucial role in host defense against invading pathogens and endotoxins, as well as maintenance of metabolic and immunological homeostasis. Some studies indicate that sepsis-associated liver dysfunction (SALD) has a substantial impact on the severity and prognosis of sepsis. Intra-abdominal infections (IAI) are the second leading source of infection for sepsis after pneumonia in ICU, and are often related to high morbidity and mortality rates. Studies had found that the incidence of SALD in IAI patients was considerably higher than that of general population with sepsis. Moreover, the incidence of acute gastrointestinal injury (AGI) in IAI patients was also much higher than that in sepsis patients with other site infections, as well as the degree of AGI was more serious according to guidelines proposed by the European Society of Intensive Care Medicine (ESICM) in 2012. IAI can directly cause AGI, and a subset of patients usually progress to increased intra-abdominal pressure, which further aggravates AGI. The pathogenesis of SALD remains unclear so far, and its mechanism is complicated and elusive. Nevertheless, the unique anatomical structure of the liver make it has close association with the gut, growing evidence indicates that the gut microbiota and related metabolites are related to several liver disease. In case of sepsis, gut microbiota disorder and low microbial diversity can cause severe liver injury. An important mechanism for this phenotype is the gut-liver axis, which refers to gut microbial metabolites and nutrients are transported to the liver through the portal vein and hepatic artery to maintain the healthy metabolism of liver. Therefore, we initially conducted a retrospective study to investigate the relationship between the occurrence of AGI and SALD among IAI patients. Subsequently, a prospective study was performed to analyze and compare the diversity and composition of gut microbiota in IAI patients with or without SALD, respectively, and the dynamic changes in the gut microbiota during the first week after ICU admission were also investigated.
Abionic has developed a targeted, rapid test for pancreatic stone protein (PSP) in human K2-EDTA venous whole blood using the abioSCOPE instrument. Currently no PSP study comparaison has been done between venous and arterial whole blood. Abionic would like to confirm the equivalence of the PSP between venous whole blood and arterial whole blood.
Sepsis is the leading cause of death among US hospitals, accounting for 6% of all hospitalizations and 35% of all inpatient deaths. International guidelines and the CMS SEP-1 bundle stress the importance of adhering to specific steps in the diagnosis and management of sepsis. This can be very difficult, especially in the setting of a busy ED, ward, or ICU where there are multiple simultaneous demands on providers' attention and time. Critical steps can be missed or delayed. The CMS SEP-1 bundle is a measure of compliance with sepsis care that is being tracked nationally across hospitals. Unfortunately, a recent study demonstrated that every hour of delay to the completion of a sepsis bundle, including antibiotic administration, was associated with a 4% increase in risk-adjusted hospital mortality. One strategy to improve the care and outcomes of patients with sepsis is the use of information technology to support our providers in a targeted manner. Technology has already been developed and deployed to help with the early identification of patients with sepsis using a Best Practice Alert (BPA), which has been in place at our hospital since 2017. This pop-up window alerts the team to the possibility of sepsis based on data within the medical record. However, once the alert is accepted or declined, the BPA does not offer ongoing support to clinicians, leaving the clinician to track and execute multiple time-based and inter-dependent sepsis bundle measures in a busy, hectic environment. To augment this existing tool, here we propose to study the efficacy of a novel technology called the Sepsis Care Tracking Platform (SCTP) to provide ongoing support at the bedside to providers, thus improving the care we deliver to patients. SCTP is a monitoring and notification platform that aims to increase the timely delivery of key elements of evidence-based sepsis care. This platform, which was built by clinicians for clinicians, leverages the electronic medical record (EMR) to track real-time compliance with key components of the CMS SEP-1 bundle - timely antibiotics, blood cultures prior to antibiotics, initial lactate, and repeat lactate for those patients with an initially elevated level. SCTP underwent technical validation in Fall 2019 with a pilot in the MGH Emergency Department. The pilot confirmed that SCTP correctly identified missing bundle elements and paged the appropriate team members connected with the patient's care. The pilot also did not find alarm fatigue to be an issue. We hypothesize that SCTP will increase our hospital's compliance with sepsis process metrics and improve patient outcomes. By monitoring real-time data and automatically alerting bedside providers to missing elements within an actionable timeframe, SCTP has the potential to drive improvements in clinical care even in the extremely busy and complex environment of the emergency department and inpatient units.