Active clinical trials for "Shock, Septic"

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.

Septic shock remains a major cause of death in critically ill patients. Alterations in microcirculation have long been proposed as a key pathophysiological factor of organ dysfunction and death in septic shock patients. Persistence of mottling, prolonged skin recoloration time and cyanosis of the extremities are the easily and frequently observed manifestations of these microcirculatory disorders. Ilomedin is a prostaglandin analog with a potent vasodilatory effect together with anti-thrombotic properties (inhibition of platelet aggregation) preferentially at the microcirculatory level. An increase in cardiac output with increased arterial oxygen delivery has been observed in clinical and preclinical studies with no episodes of hypotension. Improvement in mesenteric perfusion has moreover been observed in experimental sepsis using Ilomedin. Our group has furthermore reported that administration of Ilomedin in patients with refractory septic shock (peripheral hypoperfusion) resulted in a rapid and sustained improvement in peripheral perfusion. Altogether, Ilomedin may prevent or improve recovery of organ dysfunction in septic shock patients through recruitment of the microcirculation and, thereby, ultimately improve outcome.

ULIS-1 is an open-label pilot study concerning utility of molar sodium lactate in fluid balance in septic shock patients

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 .

Several data emphasize the relation between tachycardia (>90/min) and high mortality during septic shock. The investigators previously demonstrated the high mortality associated with hypercontractility, tachycardia and the presence of a left ventricular obstruction. A severe hypovolemia, a hyper adrenergic stimulation or a severe vasoplegia can all explain this relation between tachycardia, hypercontractility and the mortality during septic shock. Landiolol is another short-term acting beta-blocker with a half-life of 4 minutes without any beta 2 activity or membrane stabilizing effect. The landiolol has been used in critically ill patients to control supraventricular tachycardia but not in this context of tachycardia and septic shock. The investigators hypothesize that landiolol by reducing the heart rate may improve the survival of patients treated for a septic shock and presenting with an hypercontractility state.

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.

Sepsis is defined as life-threatening organ dysfunction caused by a dysregulated host response to infection. Intensive care unit (ICU) mortality in patients with septic shock and acute kidney injury (AKI) requiring continuous renal replacement therapy (CRRT) remains high and approximates 50-60%. Sepsis is the leading etiology for AKI and CRRT requirement in ICU patients. In septic shock, the dysregulated host response to infectious pathogens leads to a cytokine storm with uncontrolled production and release of humoral pro-inflammatory mediators. These pro-inflammatory mediators and cytokines exert cellular toxicity and promote the development of organ dysfunction and increased mortality. In addition to treating AKI, CRRT techniques can be employed for adsorption of inflammatory mediators extracorporally using specially developed adsorption membranes, hemoperfusion sorbent cartridges or columns. Several methods and devices, such as Oxiris®-AN69 membrane, CytoSorb® cytokine hemoadsorption and polymyxin B (Toraymyxin) endotoxin adsorption and plasmapheresis have been evaluated in small study series but to date the data on outcome benefits remains controversial. HA380 (Jafron Biomedical Co , Ltd, Zhuhai, China) is a CE-labeled hemoadsorption cartridge developed to treat patients with septic shock. It contains hemo-compatible, porous polymeric beads that adsorp cytokines and mid-molecular weight toxins on their surface. The cytokines absorved using this cartridge are IL-1, IL-6, IL-8, IL-10 in addition to TNF-α8. Therefore, this study aims to examine the potential effects of cytokine adsorption using HA380 in addition to hemodiafiltration with the Oxiris®-AN69 membrane on ICU- and 90-day mortality in patients with septic shock and AKI.

The purpose of this study is to determine the most suitable dose of Fludrocortisone in reversal of sepsis and shock associated with sepsis in patients who are admitted to the ICU. The investigators will be looking to see whether patients receiving Fludrocortisone at different doses recover quicker and spend less time in hospital and in ICU, and to understand the reasons why this happens at certain doses. Sepsis is caused by toxic substances (toxins) from bacteria and other organism entering the bloodstream from a site of infection. In some people, the infection can progress to sepsis and septic shock where the functions of organs in the body are affected. Patients suffering from sepsis and septic shock are commonly managed in the intensive care unit (ICU) where they are prescribed antibiotics as standard therapy, as well as other therapies to support the functions of the body. Fludrocortisone is a steroid that has previously shown to be beneficial to help in shock in patients in ICU, but more information is required about the exact dose that is required to achieve this. This has been shown by previous research. However, the exact role of Fludrocortisone and the best dose has not been studied adequately to date as well as the ways in how it works within the body. The study aims to look tat the dose and the way it works.

SHIPSS is a multi-institutional, prospective, controlled, randomized, double-blinded interventional trial that will examine the potential benefits and risks of adjunctive hydrocortisone prescribed for children with fluid and vasoactive-inotropic refractory septic shock. It is hypothesized that adjunctive hydrocortisone will significantly reduce the proportion of children with poor outcomes, defined as death or severely impaired health-related quality of life (HRQL), as assessed at 28 days following study enrollment (randomization).

This study has been approved as a nested substudy of a multicenter trial (CORVICTES, Clinicaltrials.gov Identifier: NCT03592693). The current, randomized, placebo-controlled study will compare steroids/vitamin C versus placebo/placebo in septic shock, with respect to cerebral autoregulation, biomarkers, and functional outcome. The following hypotheses will be tested: The steroids/vitamin C/thiamine intervention may result in attenuation of the septic shock-associated impairment in cerebral autoregulation; and 2) The increased frequency of intact cerebral autoregulation in the intervention group may result in more neurologic failure free days and ventilator free days during a 60-day follow-up; improved survival to hospital discharge with good functional outcome; and better patient-reported health-related outcomes at 90-day follow-up.