View clinical trials related to Septicemia.
Filter by:In this study, the investigators will deploy a software-based clinical decision support tool (eCARTv5) into the electronic health record (EHR) workflow of multiple hospital wards. eCART's algorithm is designed to analyze real-time EHR data, such as vitals and laboratory results, to identify which patients are at increased risk for clinical deterioration. The algorithm specifically predicts imminent death or the need for intensive care unit (ICU) transfer. Within the eCART interface, clinical teams are then directed toward standardized guidance to determine next steps in care for elevated-risk patients. The investigators hypothesize that implementing such a tool will be associated with a decrease in ventilator utilization, length of stay, and mortality for high-risk hospitalized adults.
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.
This study evaluates the impact of aminoglycosides in hypotensive septic oncologic patients. In the oncologic patient population, sepsis is a major health concern due to high mortality rates and healthcare costs. Prior research shows aminoglycosides antibiotics are frequently used to treat sepsis, but their clinical impact in hypotensive oncology patients upon the progression of sepsis is not known.
Severe infections (sepsis) are a frequent cause of admission to the intensive care unit. Sepsis represent a significant risk for the health of patients in the short and medium term. Sepsis are notably linked to a change in the function of immune cells. In some patients, a state of pseudo-dormancy of monocyte and macrophage immune cells, called myeloid cell immunosuppression, is observed. This situation, which leads to a worsening of the infection, must be avoided because it represents a danger for the patient, even during antibiotic therapy. At present, these events are still very poorly understood. Research is needed to understand how the immunosuppression of myeloid cells occurs in order to adapt existing treatments or to find new ones. Laboratory work on animal models of sepsis has shown that this state of myeloid cell immunosuppression is closely linked to a modification of energy production by myeloid cells (monocytes and macrophages). The function of the mitochondria ("energy factory" of the cells) in these cells is impaired. Thus, restoring mitochondrial function in myeloid cells could be a therapeutic solution against the immunosuppression of myeloid cells during severe sepsis. The aim of this study is to verify whether alterations in mitochondrial function in myeloid cells occur in both patients with and without bacterial infection.
To evaluate the efficacy and safety of antibiotic combinations containing Colistin in the treatment of children with multidrug-resistant gram negative infections admitted in the pediatric surgery intensive care unit. The main outcome measure is clinical and microbiological responses to therapy. The secondary outcome is the occurrence of adverse events during Colistin combination treatment.
Phage Treatment in Covid-19 Patients with Bacterial Co-Infections
Molecular testing is a largely validated approach allowing rapid identification of positive blood cultures. However, due to its high cost and its limited information on susceptibility, it is considered as an add-on technique reserved for specific patient populations. In our study, we specifically evaluated molecular testing in a critical care setting and measured its impact on the therapeutic management of critically ill with positive blood cultures. Through the analysis of 110 positive blood culture episodes included in both pre- and post intervention period, we measured a drastic 14h-reduction of the time to administration of the optimal antimicrobial treatment with the use of the molecular approach.
This trial studies how changes in microRNAs may correlate with sepsis outcomes. Sepsis is a type of severe infection of the blood stream, and its diagnosis may be obscured by many other conditions such as surgery, trauma, and cancer. MicroRNAs are biomarkers found in the blood and tissue. Blood samples may help correlate changes in microRNA expression to patient reactions to a sepsis infection.
This is an experimental study of participants who had positive blood culture to compare time to appropriate antibiotic between using Microarray Assay and Mass Spectrometry to bacterial Identification.
Implementation of the initial specimen diversion technique, in which the first milliliter of the venipuncture sample is not injected into the culture bottle, led to a significant reduction in blood culture contamination rates. This technique is based on the assumption that the skin plug aspirated during venipuncture is a major source of contaminating bacteria. One such diversion method is aspirating the first blood volume into a blood collection tube. It has, however, been suggested that regular blood collection tubes carry contaminants from the tube's stopper into the blood cultures drawn afterwards, thereby increasing contamination rates. The aim of this trial is to examine the effect of aspirating the first blood volume into a regular blood collection tube on blood culture contamination rate.