View clinical trials related to Septic Shock.
Filter by:This study is being conducted to evaluate the safety and effectiveness of VBI-S in elevating the blood pressure of septic shock patients with absolute or relative hypovolemia.
to evaluate the effect of use of bronchoscopy in the course of sepsis, weaning from the ventilator, duration of ICU stays and mortality rate in septic patients with ARDS due to VAP.
to evaluate the effect of use of bronchoscopy in the course of sepsis, weaning from the ventilator, duration of ICU stays and mortality rate in septic patients with ARDS due to VAP.
Objective: To investigate the correlation between plasma levels of DDX17 and GSDMD with vascular endothelial dysfunction and prognosis of in sepsis patients. Design: A single center, prospective, observational research. Participants: Patients with sepsis who are hospitalized to Southeast University Affiliated Zhongda Hospital and meet the diagnostic criteria for sepsis 3.0. Inclusion criteria:1. There is a potential or clear infection; 2. Sequential organ failure score (SOFA score) increases by more than or equal to 2 points compared to the baseline value; 3. Sign informed consent form. Exclusion criteria: Age<18 years old or>80 years old, pregnant women, tumor patients, including diseases that may be complicated with vascular endothelial damage: hypertension, acute and chronic hepatitis (hepatitis caused by virus), liver cirrhosis, PT prolongation after liver transplantation, acute myocardial infarction, chronic tubular nephritis, chronic renal insufficiency/maintenance hemodialysis, renal transplantation, interstitial pneumonia, acute pancreatitis, active phase of systemic lupus erythematosus Ulcerative colitis, Crohn's disease, HELLP syndrome. Primary outcome: 28-day mortality. Secondary outcome: Plasma levels of DDX17 and GSDMD, and their correlation with vascular endothelial injury, severity, and prognosis in sepsis patients.
Sepsis is organ dysfunction secondary to an inappropriate host response to infection. In the most severe cases, circulatory failure necessitating the introduction of vasopressor therapy is called septic shock. Sepsis and septic shock are life-threatening systemic organ dysfunctions requiring hospitalization in a critical care unit. According to several studies, sepsis accounts for around 30% of patients in these units. In this patient population, mortality in the critical care unit or in hospital is 25.8% and 35.3% respectively. Among the organ dysfunctions associated with sepsis, striated skeletal muscle damage is frequent and possibly severe. The literature refers to this as sepsis-induced myopathy, and describes three main mechanisms: mitochondrial dysfunction, exacerbated proteolysis and altered muscle membrane excitability. Of all the striated skeletal muscles that can be affected, the diaphragm and the muscles of the thoracic and abdominal wall play a major role in breathing. The diaphragm remains the main muscle involved in breathing. Its physiology is twofold. Firstly, through its contraction, the diaphragm is responsible for the lateral movement of the lower ribs, thus increasing the transverse diameter of the thorax. This first action is commonly referred to as "insertional". At the same time, lowering the phrenic center of the diaphragm increases abdominal pressure. Its distinctive upwardly convex domed appearance means that it is intimately in contact with both the chest wall and the abdominal cavity. This particular area of contact is called the apposition zone. It is on this zone, under the action of the abdominal compartment, that positive pressure also generates an outward thrust from the medial face of the lower ribs, a second action commonly referred to as "appositional". A number of studies, including that carried out by our team (US_DIAMONDS, NCT 02474797), have identified a high prevalence of diaphragmatic damage in patients with sepsis or septic shock. This can be as high as 60%. This diaphragmatic dysfunction would then be associated with a higher mortality rate in hospital and at D90 of discharge. The clinical evolution of post-resuscitation patients remains a little-studied subject. However, patients may present muscle dysfunctions in the longer term after a stay in intensive care. In our study, we demonstrated that less than half of patients recovered from diaphragmatic dysfunction on discharge from the critical care unit. In addition, Borges RC et al. found a significant decrease in the cross-sectional area of the rectus femoris at discharge, compared with the same measurement taken at D+2 of admission to the critical care unit. Finally, the impact of muscle dysfunction on dyspnoea during sepsis and after its resolution is uncertain. Similarly, the impact of muscle dysfunction and dyspnoea on quality of life is unknown. Sepsis is associated with muscle dysfunction of multiple mechanisms. The aim of this study is to assess the immediate and longer-term impact of muscle dysfunction on muscle, dyspnea and quality of life in patients with abdominal sepsis ("Abdominal sepsis" group) and patients with extra-abdominal sepsis ("Extra-abdominal" group). Depending on the location of sepsis, this study will enable us to assess and potentially confirm the preferential effect of abdominal sepsis on diaphragm function.
The aim of this study is to evaluate the possible prognostic performance of RV dysfunction, as assessed by TAPSE, in non-cardiac patients with septic shock.
The main aim of this study is to examine the various effects of continuous methylene blue infusion in septic cancer patients and to compare it with the traditional infusion of noradrenaline in such patients .
The investigators selected patients diagnosed with sepsis who were admitted to the Intensive Care Unit (ICU) of Huai'an First People's Hospital between June 2022 and December 2023, as well as healthy individuals with normal kidney function during the same period, for the research. The investigators collected blood samples from patients with septic shock or sepsis at 6 hours, 12 hours, 24 hours, 48 hours, 3 days, 5 days, and 7 days after diagnosis, and also collected blood samples from the healthy individuals. The blood samples were stored in gel separation vacuum tubes containing heparin as an anticoagulant. The supernatant was removed and stored at -80°C, and the levels of plasma ELA (enzyme-linked immunosorbent assay) were measured using a standardized ELA kit. Additionally, serum NGAL (neutrophil gelatinase-associated lipocalin) and creatinine levels were measured simultaneously. The subjects were divided into three groups based on the KDIGO diagnostic criteria: sepsis-associated acute kidney injury (S-AKI) group, sepsis non-AKI group, and normal control group. Finally, the data were analyzed to determine the early diagnostic value of ELA for S-AKI. Approximately 70 specimens were collected in total.
In this single-center, randomized, single-blind, placebo-controlled pilot clinical trial. The effect of apigenin on the improvement of organ function will be investigated in elderly patients with sepsis. Researchers will screen patients admitted to the Department of Critical Care Medicine at Zhujiang Hospital to identify patients with sepsis based on including and excluding criteria and obtain informed consent and randomize them into groups. The treatment group will be given apigenin tablets 50mg ground with 5ml of sterilized water for intra-gastric tube injection; the control group will be given an equal volume of sterilized water for intra-gastric tube injection. The changes in SOFA score and other clinically meaningful outcomes in 4 days will be collected.
This prospective, blinded observational clinical study was aimed to determine the effect of hyperhydration and muscle loss measured by Bioelectrical impedance vector analysis (BIVA) on mortality. The aim was to compare hydratation parameters measured by BIVA: OHY, Extracellular Water (ECW) / Total Body Wate (TBW) and quadrant, vector length, phase angle (PA) with cumulative fluid balance (CFB) recording (input-output) in their ability in predicting mortality as the abilities of the prognostic markers PA (BIVA), Acute Physiology and Chronic Health Evaluation II (APACHE II - score) and presepsin (serum Cluster of Differentiation (CD) 14-ST). The investigators also compared BIVA nutritional indicators (SMM, fat) with BMI and laboratory parameters (albumin, prealbumin and C-reactive protein (CRP) inflammation parameters) in the prediction of mortality. An important goal was to evaluate the usability of the BIVA method in critically ill patients on extracorporeal circulation, to compare the impedance data of the extracorporeal membrane oxygenation (ECMO) and non-ECMO groups.