Active clinical trials for "Sepsis"

This is a post-market, observational, retrospective multi-center Registry designed to gather information on the performance of the Angel® Catheter in general clinical practice.

There is no consensus around the world on the treatment of preterm rupture of membranes, which is one of the important causes of early neonatal sepsis and one of the common causes of prematurity. Different countries, hospitals and physicians can determine different treatment approaches. There is very little scientific data on the benefit of commonly used treatment regimens other than experience. In this study, scientific results will be obtained by comparing the efficacy of treatments (Sulbactam ampicillin or azithromycin ampicillin) in two different hospitals (Hacettepe University Perinatology Clinic and Ankara City Hospital Perinatology Clinic), and it will be shown which treatment regimen reduces early neonatal sepsis and inflammation better. Some samples (vaginal IL-6, vaginal-cervical swab samples for atypical bacteria, cervical swab samples for direct microscopy, serum IL-6) will be taken from pregnant women who develop membrane rupture and these samples will be used as initial inflammation markers. Each physician will decide on the treatment of his own patient, there will be no intervention in the treatment of the patient within the scope of the research. Patients will continue their routine follow-up after receiving their treatment. When the delivery occurs, the level of IL-6 in the cord blood will be examined with other inflammation markers (procalcitonin, crp, complete blood count), and the neonatal inflammation status of the baby will be determined. The low inflammation markers detected in the babies of pregnant women with high initial inflammation values will be compared and it will be determined which treatment is more effective. At the same time, routine neonatal intensive care follow-ups of these babies will be continued and treatment efficiency in terms of early neonatal sepsis will be determined. This study will present scientific data on which treatment is effective in the literature and will guide international treatment guidelines. At the same time, preterm rupture of membranes will show which bacterial agent plays a more role in the etiology and which of the inflammation markers have more sensitivity and specificity, as well as the success of the treatment, which is the subject of the study. The routine use of some examinations (such as cervical PCR) performed before the treatment begins, is a guide in the selection of agent-specific treatment and may shorten the unnecessary drug use and hospital stay; The management of patients may vary according to the initial inflammation parameters. Physicians evaluating the results of this study can evaluate the risk of their babies in terms of early neonatal sepsis according to the initial inflammation values of their patients, and increase and decrease the length of hospital stay.

After stimulation by lipopolysaccharide (LPS), the one-carbon metabolism of macrophages was significantly up-regulated, the expression of key enzyme 5,10-methylenetetrahydrofolate reductase increased. In vitro experiments we found that LPS stimulation can increase the expression of MTHFR mRNA and protein in macrophages, suggesting that aerobic glycolysis may trigger cytokine storm through one-carbon metabolism. Homocysteine (homocysteine, Hcy) is an important intermediate product of one-carbon metabolism. A number of studies have shown that Hcy is positively correlated with the level of pro-inflammatory factors, significantly enhancing cytokine storm. However, the relationship between Hcy and serum pro-inflammatory factors in patients with sepsis and the effect of Hcy on the prognosis of patients with sepsis are still unclear. Based on the previous work, our research group intends to carry out single-center, prospective, observational clinical research to observe the relationship between homocysteine and the mortality of patients with sepsis, and to provide new indicators for accurately judging the prognosis of sepsis , To provide new targets for clinical development of drugs for the treatment of sepsis.

Cardiogenic shock is a condition of low cardiac output that represents the end of a progressive deterioration of cardiac function. The main cause is ischemic heart disease but there are several causes of non-ischemic nature including sepsis. Sepsis is characterized by a picture of organ dysfunction caused by an altered response of the body to an infection. Its most serious form is septic shock, defined as a picture of sepsis in which the underlying abnormalities in the cardiovascular system and cellular metabolism are such as to increase mortality. An organ failure correlates directly with the function of others and this interdependence is especially evident when a cardiovascular failure is established. 3 Cardiac dysfunction in sepsis can be defined as that of a syndrome characterized by low cardiac output not related to myocardial ischemia. The use of levosimendan in cardiogenic shock during sepsis was first described in a 2005 case report. Since then there have been small studies and other case reports that have shown improvements in right and left ventricular contractility, ventricular coupling, cardiopulmonary performance, global oxygen transport, renal and splanchnic perfusion when compared to dobutamine and placebo. Other beneficial effects of this drug have emerged, including an anti-inflammatory, antioxidant and antiapoptotic action with a possible protection from ischemia-reperfusion damage. The present study aims to evaluate the correct use of levosimendan, after the occurrence of cardiogenic shock on a low cardiac index has been ascertained, with the aim of weaning from inotropic drugs in infusion.

Establishing an antibiotic policy based on the local culture sensitivity records to ensure rational use of antibiocs, then measure the clinical and economic impact of this local antibiotic policy.

Cytokine adsorption using the cytosorb adsorber is currently investigated to reduce the levels of proinflammatory cytokines in patients with severe sepsis and septic shock. The adsorber is frequently used in series with continuous renal replacement therapy. Up to date, no data on the removal of antibiotic drugs during combined renal replacement therapy and cytokine adsorptive therapy is available. Therefore, we want to investigate - whether and to what extent antibiotic drugs (piperacillin/tazobactam and imipenem/cilastatin) are removed during combined continuous renal replacement therapy and cytosorb adsorption in patients with severe sepsis and septic shock

Thousands of children die from Sepsis following routine infections. Many of these deaths can be prevented with earlier recognition and focused management. No tools are currently available to recognize the signs of early sepsis in children. The investigators have developed a electronic health record-based tool that will recognize children with sepsis early and trigger an alert to their hospital caregivers. The caregivers will be prompted to launch a focused management bundle that can stabilize these children, prevent further deterioration and reduce their chances of sepsis related complications and death. The proposed study will test the validity and effectiveness of this electronic tool in reducing sepsis mortality rates.

This is a systematic review and Meta-Analysis of interventions for implementation of Surviving Sepsis Campaign guidelines and their impact on compliance and mortality reduction

Sepsis is a leading cause of hospitalization in pediatric intensive care units, In the last decade, a series of initiatives were implemented that aim not only to improve the understanding of sepsis and the clarity of concepts related to this condition but also to reduce morbidity and mortality due to sepsis through earlier diagnosis and initiation of antibiotic therapy as well as through the provision of specific guidelines for the treatment of pediatric sepsis. Despite these measures and the lower mortality from sepsis in children compared to adult patients, the impact of sepsis in the pediatric population remains high.

It has always been a real challenge to treat sepsis in critically ill patients. The mortality is as high as 20％ in patients with severe sepsis and 46％ with septic shock develops. Early diagnosis and early treatment are the principles. Along with appropriate resuscitation, judicious and thoughtful intravenous antibiotic therapy is the critical determinant of survival in sepsis and septic shock given that ineffective initial therapy worsens the outcome. Blood culture and subsequent susceptibility testing are the gold standard for microbiological diagnosis to direct the optimal use of antibiotic. However, this conventional approach usually takes 5-7 days to wait for the final report. Positive results were reported in only 30% of patients with sepsis and 50 to 60% septic shock. Moreover, the very low bacteria level in blood and prior use of antibiotics may prevent pathogen growth. Surface-enhanced Raman scattering (SERS) is a novel spectroscopy technique based on Raman scattering and localized surface plasma resonance (LSPR), which results in strongly enhanced Raman signals derived from molecules attached to nanometre-sized gold (Au) and silver (Ag) structures. SERS provides the structural information of biomedical molecules with ultra-sensitive characterization down to single molecular level in fast and non-destructive manner. The clinical application of SERS in sepsis will first help to recognize pathogens as well as their specific drug sensitivity, and then optimally guide the initial antibiotics usage. Plasma from twenty blood culture proven Gram positive, negative and Candida cases will separately subject to metabolomics profiling and bioinformatics analysis to establish each pathogen metabolites profile. The sensitivity and specificity of SERS and metabolomics in identifying pathogen and antibiotics-resistant strains will be evaluated. The investigators expected both techniques to play a crucial role in modern sepsis treatment and bring great impact on mortality reduction.