View clinical trials related to Shock, Septic.
Filter by:Patients with cirrhosis patients have a high incidence of sepsis which can trigger decompensation and may result in prolonged hospital stay and increased mortality. About 30%-50% admissions of patients with cirrhosis have sepsis at presentation and about 15% patients admitted to hospital develop sepsis during the hospital stay . After infection develops, the patient may develop acute kidney injury (AKI), shock, encephalopathy or disseminated intravascular coagulation (DIC) further decreasing the chances of survival. In fact, sepsis in patients with cirrhosis is associated with 15% in-hospital mortality, approximately double that of patients without sepsis. So, sepsis is directly responsible for 30-50% of deaths in cirrhosis . Therefore, it is critical to manage sepsis early and appropriately in cirrhosis to reduce the complications and mortality. Early administration of fluids, source control and empirical antibiotics along with vasopressors if refractory shock are essential components of treatment in all patients with sepsis. Currently, the most accepted strategy for early sepsis management is a combination of early goal directed therapy (EGDT) and physiological parameters, such as urine output, lactate clearance, and administration of antibiotics, within 1 hour of presentation . The use of central venous pressure assessment is fallacious for gauging adequacy of fluid resuscitation in cirrhosis, and the difficulty of performing echocardiographic assessments in the setting of ascites and cirrhotic cardiomyopathy is also well described .
Sepsis is a systemic inflammatory response that has deleterious effects and considered the leading cause of death in critically ill patients 1 . One of the hallmarks of severe sepsis is the progressive, injurious inflammatory response to infection, mediated by the excessive release of inflammatory mediators and consequently, associated with multiple organs damage 2 . Various studies have demonstrated that adverse outcomes in sepsis patients are closely related to the development of myocardial dysfunction 3 . The mortality of sepsis combined with cardiac functional insufficiency has increased significantly to 70%-90% 4 . Therefore, targeting cardiac insufficiency and heart injury may represent a novel treatment strategy. Several reports documented critical involvement of serotonin 5-hydroxytryptamine in the pathogenesis of sepsis. The aim of the current study is to evaluate the efficacy of ondansetron adjuvant use in patients with sepsis and septic shock.
Sepsis is a major healthcare problem and leading cause of death in the pediatric population. Despite advances in supportive care of critically ill patients, sepsis remains an important cause of death worldwide in children. Overall, sepsis incidence peaked in early childhood. There were an estimated 20.3 million incident sepsis cases worldwide among children younger than 5 years. The Surviving Sepsis Campaign (SSC), which standardized the evidence-base approach to management of septic shock and other sepsis-associated organ dysfunction in children, was recently updated. Nevertheless, mortality and costs are still high. Sepsis is characterized by a complex systemic inflammatory response to a microbial pathogen. A dysregulated host response to infection may result in life-threatening multi-organ dysfunction. Endotoxin, which is found in the outer membrane of Gram-negative bacteria, plays an important role in the pathogenesis of septic shock by producing proinflammatory cytokines. High levels of endotoxin and proinflammatory cytokines are associated with a high mortality rate. Treatment strategies in sepsis and septic shock include early and adequate fluid resuscitation, vasopressors and inotropic support when indicated, early use of broad-spectrum antibiotics with source control, with close monitoring and organ support, if indicated. Other therapies such as immune-modulation and blood purification have been tried to improve outcomes in patients with sepsis and septic shock. Immunomodulation and blood purification techniques aim at restoring the balance of the immune response to infection, by removing the triggers for the response and the cytokines produced and thereby achieve immune homeostasis. Removing endotoxin and inflammatory cytokines would be an effective adjunctive approach in the management of severe sepsis. Direct hemoadsorption (HA) is an extracorporeal technique utilized for blood purification. It involves the passage of blood through an adsorption cartridge, where solutes are removed by direct binding to the sorbent material. Over the years, new adsorption cartridge, with improved characteristics have been developed. Resin-directed hemoadsorption is associated with improved oxygenation, hemodynamic status and cardiac function. However, most studies include only adults, and little information is available regarding the clinical experience and efficacy of blood purification for pediatric septic shock. This pilot study aimed to evaluate the overall clinical outcomes among children who received direct hemoadsorption as an adjunctive treatment for refractory septic shock with high severity scores, compared with outcomes among children admitted to the PICU who received standard treatment.
A sigle-center, randomized controlled trial will be do to investigate the effects of esomol on heart rate, clinical parameters, mortality, and safety in septic shock patients with tachycardia at different stages, compared with patients who received conventional therapy.
Retrospective observational study to develop a Machine Learning Algorithm to evaluate parameters collected from routine data for the diagnosis of sepsis and septic shock and their influence on time to diagnosis and patient outcome.
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.
The sublingual microcirculation is impaired in sepsis and septic shock. Sidestream dark field imaging technology has been developed into a clinical tool to help the clinician assess the microcirculation at the bedside. The ideal resuscitation fluid has not been identified. The investigators aim to use this new bedside technology to establish the microcirculation properties of two popular resuscitation fluids.
This observational, pharmacological, prospective study aims to assess the improvement of ventricular systolic function mediated by norepinephrine (NE) administration in preload non-responders septic shock patients. Left ventricular outflow tract velocity time integral (LVOT-VTI) is an echocardiographic index of ventricular systolic function and it will be measured at different NE dosages.
Lactate kinetics will be studied in hospitalized septic patients using a bolus injection of stable isotopically labeled lactate.
Whole blood lactate concentration is widely used in shock states to assess perfusion. We aimed to determine if the change in plasma renin concentration over time would be superior to the change in lactate concentration for predicting in-hospital mortality in septic shock patients.