View clinical trials related to Septic Shock.
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A great interest exists regarding substances with an immunomodulatory effect for sepsis patients. Recent data have shown that intravenous vitamin C, together with corticosteroids and thiamine, could prevent progressive organ dysfunction and reduce vasopressor use in patients with severe sepsis and septic shock. Its effect on mortality, on the other hand, is yet to be demonstrated. The Vitamins study aims to conclusively determine, through its prospective, multicentre and double-blinded design including 1090 patients, wether Vitamin C, Thiamine and Hydrocortisone in combination can reduce mortality in patients with septic shock.
Bacterial sepsis occurs in patients with severe infections. The condition is caused by toxic substances (toxins) released from bacteria and the patient's elevated inflammatory response to those toxins. In preclinical studies, human mesenchymal stromal cells (MSCs) have been proven to modulate host inflammation in infections, including sepsis. The purpose of the Phase I, open label, dose escalation safety trial is to determine whether escalating doses of enhanced MSCs (GEM00220) are safe and well tolerated in patients with septic shock.
To explore the safety and feasibility of alternative fluid resuscitation strategies in obese patients with septic shock.
Biomarkers that provide an early indicator of kidney stress could be useful in clinical practice to detect silent episodes of acute kidney injury (AKI) or for early identification of subjects at risk of AKI. Two urinary biomarkers have been identified as early indicators of AKI. The NephroCheck® test is a commercially available test that uses these biomarkers, and this study assesses the use of these in reducing negative clinical outcomes for patients with sepsis-associated AKI. The study will enroll subjects diagnosed with sepsis, including septic shock, who will be randomly assigned to either receive NephroCheck®-guided kidney-sparing and fast-tracking interventions; or to receive current Standard of Care assessment and treatment. NOTE: Participants are no longer being recruited to this study.
This study is designed to improve the outcomes for patients suffering from severe sepsis and septic shock (SS/SS) by decreasing the time from first medical contact to antibiotic administration. This is a stepwise study that aims to demonstrate the ability of paramedics to accurately obtain blood cultures prior to hospital arrival, administer a broad spectrum antibiotic and initiate IV fluid resuscitation in patients meeting predefined criteria for SS/SS.
Surgical trauma elicits an immune response aiming to initiate healing and remove debris and damaged tissue locally at the wound site (1). This local reaction includes a considerable production of cytokines and chemokines that enters the circulation and initiate a systemic inflammatory response mediated by circulating cytokines and chemokines. This response is called systemic inflammatory immune response (SIRS) and is an aseptic systemic inflammation. Postoperative inflammation produces proinflammatory cytokines, mainly IL-6, IL1 beta, and tumor necrosis factor alfa (2). Neutrophils and emergency granulopoesis Polymorphonuclear neutrophils constitute the most abundant population of white blood cells. Their main task is to provide innate immune protection of the host from microbial attack, migrating to the site of infection, engulfing the microbes by phagocytosis, and killing the prey through attack by reactive oxygen species (ROS) and antimicrobial granule pro¬teins (22). Upon systemic infection or inflammation, e.g., sepsis or trauma, the bone marrow enters a state of emergency granulopoiesis, drenched in cytokines that augment production and survival of neutrophils for rapid delivery to the blood (23-25). Recently, advanced techniques have evolved that al¬low the isolation of different developmental stages of steady-state and emergency neutrophils, and characterization of these has just begun (26). Glycans Glycans (polysaccharides) attached to proteins and lipids on the surfaces on immune cells serve as ligands for glycan-binding proteins, lectins. Several neutrophil processes are directed by gly¬can - lectin interactions; selectin-directed rolling on the endothelium, siglec-mediated in¬hibitory signals, and activation of effector function by galectins. Many of the proteins that end up in neutrophil intra-cellular granules are highly glycosylated, but not much is known about if and how the neutrophil glycome evolves during the 'targeting-by-timing' process of differentiation and how this is affected by emergency granulopoiesis during systemic infection and inflammation. Here is a clear knowledge gap.
Septic shock is common in patients admitted to intensive care and hospital mortality occurs in close to 50% of these patients. In half of the cases, death occurs within the first 72 hours in a context of multiple organ failure that does not respond to conventional therapies, particularly circulatory therapies, despite increasing doses of catecholamines. Vasopressor resistance in septic patients defines refractory septic shock. In one study (Conrad et al. 2015), the increase in blood pressure observed with an infusion of increasing doses of phenylephrine (dose-response curve) made it possible to quickly and clearly identify patients resistant to vasopressors at a high risk of death by refractory shock (ROC AUC 0.92). This resistance is due in particular to a downregulation of α1 adrenergic receptors, linked to sympathetic hyper activation associated with septic shock. To date, there is no validated therapy in this situation. However, experimental data have shown that the administration of α2 agonists, usually used for their sedative (dexmedetomidine) or anti-hypertensive (clonidine) effect, normalizes sympathetic activity towards basal values. In animals, α2 agonists restore the sensitivity of alpha1 adrenergic receptors, resulting in improved vasopressor sensitivity and survival. In humans, a beneficial effect on mortality was suggested in the first trial testing dexmedetomidine in septic patients in 2017. This effect was observed especially in the most severe patients, suggesting a restoration of sensitivity to vasopressors. The hypothesis is that the administration of dexmedetomidine in patients in refractory septic shock may improve response to phenylephrine and decrease resistance to vasopressors. This pilot study could lay the foundation for a randomized controlled trial.
This phase II trial studies how well early metabolic resuscitation therapy works in reducing multi-organ dysfunction in patients with septic shock. Early metabolic resuscitation is made of large doses of glucose, protein, and essential metabolic molecules that may help lower the effects of septic shock on the body. Giving patients early metabolic resuscitation in combination with standard of care may work better in reducing multi-organ dysfunction syndrome in patients with septic shock compared to standard of care alone.
Preliminary studies show that giving a "cocktail" of intravenous vitamin C, vitamin B1, and steroids to critically ill patients with septic shock may dramatically improve mortality in those patients. These studies suffer from inadequate design due to lack of controls and blinding to prove the causal effect. Our goal is to conduct a prospective blinded randomized control trial to investigate whether this intervention truly effect outcomes.