View clinical trials related to Sepsis.
Filter by:The popuse of this study is to assess the inflammatory immunophenotypes of sepsis patients are significantly correlated with prognosis, which may provide theoretical basis for precise immune regulation of sepsis.
Sepsis is an inflammation response produced by the host's immune system, which is agrravated by oxidative stress. One of the adjuvant therapy according to Surviving Sepsis Campaign Guideline is albumin, which has anti-inflammatory and anti-oxidant effects. However, human albumin is quite expensive, and other forms with similar potency and less costs are needed, one of which is Channa striata extract. Therefore, this study is conducted to compare albumin and human albumin, specifically their anti- inflammatory and anti-oxidant properties by assessing the eNOS marker, neutrophil/lymphocyte ratio (NLR) and platelet/lymphocyte ratio (PLR) in patient 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 blood purifications on children with sepsis through randomized controlled studies, so as to provide a corresponding basis for the treatment of children with sepsis blood purification.
Advanced stages of the response to life-threatening infection, severe trauma, or other physiological insults often lead to exhaustion of the homeostatic mechanisms that sustain normal blood pressure and oxygenation. These syndromic presentations often meet the diagnostic criteria of sepsis and/or the acute respiratory distress syndrome (ARDS), the two most common syndromes encountered in the intensive care unit (ICU). Although critical illness syndromes, such as sepsis and ARDS, have separate clinical definitions, they often overlap clinically and share several common injury mechanisms. Moreover, there are no specific therapies for critically ill patients, and as a consequence, approximately 1 in 4 patients admitted to the ICU will not survive. The purpose of this observational study is to identify early patient biologic factors that are present at the time of ICU admission that will help diagnose critical illness syndromes earlier, identify who could benefit most from specific therapies, and enable the discovery of new treatments for syndromes such as sepsis and ARDS.
Neonatal sepsis still considered as one of the major causes of mortality and morbidity during the neonatal period due to high vulnerability of that age group. The blood culture is considered as the gold standard for diagnosis of bacterial sepsis, however in early onset neonatal sepsis (EONS) the inability to isolate a microbial pathogen does not exclude sepsis. The reason behind the high number of culture-negative cases is not clear and might be attributed to low levels of bacteremia or small volumes of blood obtained from sick infants. Also maternal antibiotic treatment before or during delivery may theoretically mask detection of bacteremia in the newborn. In addition these cultures have a 48-72 hours delay to obtain results. Therefore, the combination of clinical assessment and laboratory biomarkers currently are the bases for diagnosis of neonatal sepsis. Recently interleukin-27 (IL-27) has been looked at as another candidate biomarker in the serum for diagnosis of sepsis in both adult and children. Interleukin-27 (IL-27), a novel member of the IL-12 family, was first discovered in 2002. IL- 27 is primarily synthesized by antigen-presenting cells, and it is widely expressed in a myriad of cells, including placental trophoblast cells. Although multiple studies have reported IL-27 as an essential regulator of immune response and inflammation, its precise role in the immune response is still disputable. Conventionally, IL-27 has been envisaged as a potent promoter of inflammation. When first discovered, it was characterized as a promoting factor in the rapid initiation of inflammatory responses, processing the ability to stimulate the rapid expansion of naïve CD4+T and then the production of IFN-?, which has been demonstrated by various subsequent studies. The aim of this study was to evaluate the usage of elevated IL-27 in cord blood as an early predictor biomarker for EONS.
Neonatal sepsis is a leading cause of neonatal mortality and continues to be a formidable problem for neonatologists and pediatricians world over. The prevalence of neonatal sepsis varies in different countries; in developed countries it is 1 to 10 cases per 1000 live births and in developing countries the incidence of neonatal septicemia increases to 49 to 170 cases per 1000 live births. The normal fetus is sterile until shortly before birth as the placenta and amniotic sac are highly effective barriers to infections. At birth, the newborn loses the protection afforded to it in the uterus and gets exposed to the microbial world.Neonatal sepsis is broadly divided into two types according to age of onset: Early-onset sepsis (<72 Hrs) and late-onset sepsis (≥72 hrs-28 days). Early-onset sepsis is acquired during fetal life, delivery, or at the nursery.Bacterial organisms causing NS may differ among countries, however, in most developing countries, gram-negative bacteria remain the major source of infection.To date, blood culture is the gold standard test for diagnosing sepsis, but it has some inherent limitations. It takes at least three or five days to be decisive and can be mistakenly negative because antibiotics are initiated empirically before collection and a well-developed microbiology laboratory is required.CRP is one of the most widely studied and applied acute phase proteins clinically, which can be induced by pre-inflammatory factor interleukin-6 (IL-6) to synthesize by liver cells, and it starts to rise in 12-24 hours of inflammatory response and reaches its peak at 48 hours.Interleukin-6 (IL-6) is a pleiotropic cytokine expressed by different cells in response to infections.
In the development of sepsis treatment of recent years, the demand for medical manpower has increased significantly when patients with sepsis appear because of the expansion of medical care demand and shortened response time related to sepsis Due to the shortage of manpower, a more simple and easy-to-operate inspection method is adopted and artificial intelligence technology is used to assist in the evaluation. The applicability of physiological indicators MEWS and qSOFA as sepsis screening tools in emergency department (ED) and predicting sepsis outcome in the emergency department. When patients with sepsis appear, artificial intelligence technology is used to remind the physicians to respond and administer drugs as soon as possible. This is a single-center retrospective study of a group of patients admitted to the emergency department. The medical records were reviewed, mainly based on the hospital site records and the existing vital signs of the patients. Attended a hospital emergency room between January 2020 and December 2022. Physiological numerical indicators MEWS and qSOFA were all scored to understand the distribution of sepsis.
Bloodstream infections and catheter-related infections frequently occur in burn patients. It is important to correctly assess and manage these infections. The present study aimed to investigate the effects of catheter types used in major burn patients on bloodstream infections as well as to predict sepsis status and manage its prognosis using a procalcitonin biomarker.
Bloodstream infections (BSI) caused by bacteria translocating across injured oral mucosa are a significant cause of morbidity and mortality in patients undergoing stem cell transplantation (SCT). Unfortunately, there are currently no known strategies to prevent these BSI in this vulnerable population. The investigators will conduct a randomized, double-blind, placebo-controlled trial at three institutions to evaluate the effectiveness of twice daily intraoral xylitol-wipe application on reducing BSI in pediatric SCT patients.
Fecal microbial transplantation is to transplant functional microbiota from the feces of healthy people into the gastrointestinal tract of patients, reconstruct new intestinal microbiota, and realize the treatment of intestinal and extra-intestinal diseases. Compared with ordinary commercial probiotics, FMT is more consistent with the composition of the intestinal microecological structure and can recover intestinal flora to the maximum extent and faster. FMT increases intestinal bacteria production function and helps to restore the systemic immune response so that sepsis pathogens are removed. The aim of this trial was to investigate the clinical effect of FMT in the treatment of patients with severe infections.