Active clinical trials for "Shock, Septic"

Prior data has shown that both corticosteroids and vitamin C reduce the activation of nuclear factor ƘB (NFƘB), thereby ultimately attenuating the systemic inflammatory response to sepsis/septic shock and augmenting the responsiveness to vasopressors. Therefore, the current investigators hypothesized that the combined use of vitamin C and stress-dose hydrocortisone may improve the outcomes of patients with septic shock. The investigators intend to perform a randomized, multicenter, parallel group, double-blind, placebo-controlled trial of vitamin C plus stress-dose hydrocortisone or placebo plus placebo for a total of four days after randomization of patients fulfilling the current consensus criteria for septic shock. The primary outcome will be hospital mortality, whereas the scondary outcomes will include 60-day, 28-day mortality, time to vasopressor cessation, procalcitonin clearance and change in the Sequential Organ Failure Assessment score over the first 4 days after randomization, neurologic failure-free days, and length of stay in the intensive care unit (ICU) and the hospital. Target enrollment will be 400 patients.

Immunonutrition in intensive care has not yet demonstrated a beneficial effect on organ failure, the acquisition of nosocomial infections, or mortality. It did not correct for acquired immunosuppression in intensive care patients. Despite numerous methodological problems (use of several pharmaconutrients, very heterogeneous set of patients) and the absence of clinical data, deleterious effects have been attributed to immunonutrition in intensive care, in particular in septic patients and patients in intensive care . Arginine (ARG) is a semi-essential amino acid involved in many immunological mechanisms. It is synthesized in sufficient quantity under normal conditions but quickly becomes insufficient under catabolic conditions such as in severe sepsis. Arginine is not only the precursor of nitrogen monoxide (NO) but also an essential substrate for numerous enzymatic reactions which participate in the maintenance of immune homeostasis, in particular T lymphocyte function. Depletion of the cellular medium in arginine will induce an abnormality in the metabolism of immune cells responsible for a dysfunction of these cells (lymphopenia linked to early apoptosis) and thus expose patients to organ failure and nosocomial infections. It has been found that hypoargininemia in intensive care patients is associated with the persistence of organ dysfunction (SOFA score), the occurrence of nosocomial infections and mortality. Also, it has been demonstrated that in these patients, enteral administration of ARG was not deleterious and increased ornithine synthesis, suggesting a preferential use of ARG via the arginases route, without significant increase in argininaemia or effect on immune functions. L-citrulline (CIT), an endogenous precursor of ARG, constitutes an interesting alternative for increasing the availability of ARG. Sponsor recent data demonstrate that the administration of CIT in intensive care is not deleterious and that it very significantly reduces mortality in an animal model of sepsis, corrects hypoargininemia, with convincing data on immunological parameters such as lymphopenia, which is associated with mortality, organ dysfunction and the occurrence of nosocomial infections. The availability of ARG directly impacts the mitochondrial metabolism of T lymphocytes and their function. Our hypothesis is therefore that CIT supplementation is more effective than administration of ARG in correcting hypoargininemia, reducing lymphocyte dysfunction, correcting immunosuppression and organ dysfunction in septic patients admitted to intensive care.

To demonstrate that external drainage of thoracic duct lymph during sepsis results in a reduction in circulating pro-inflammatory cytokines. To demonstrate safety and feasibility of early thoracic duct cannulation and external lymph drainage for up to 7 days in adult surgical intensive care patients. To explore other biochemical and physiological endpoints that can be used for the design of future randomized controlled trials and estimate effect size of external drainage.

Diarrhea is one of the leading causes of under-five childhood mortality and accounts for 8% of 5.4 million global under-5 deaths. The coexistence of sepsis and hypovolemic shock in children with severe acute malnutrition (SAM) having diarrhea is common. At Dhaka hospital of icddr,b, the death rate is as high as 40% and 69% in children with severe sepsis and septic shock respectively with co-morbidities such as severe malnutrition. The conventional management of SAM children with features of severe sepsis recommended by WHO includes administration of boluses of isotonic saline followed by blood transfusion in unresponsive cases with septic shock; whereas the Surviving Sepsis Campaign (SSC) guideline recommends vasoactive support. To date, no study has evaluated systematically the effects of inotrope(s) and vasopressor or blood transfusion in children with dehydrating diarrhea (for example, in cholera) and SAM having shock and unresponsive to WHO standard fluid therapy. This randomized trial will generate evidence whether inotrope and vasopressor or blood transfusion should be selected for severely malnourished children having hypotensive shock and who failed to respond to WHO standard fluid bolus.

Septic shock is associated with a high mortality risk. Fluid overload occurs when fluids are administered to fluid unresponsive patients, but also when inappropriate resuscitation goals are pursued. Alongside, evidence confirms that abnormal peripheral perfusion after resuscitation is associated with increased morbidity and mortality. Targeted resuscitation associates with lower mortality, less organ dysfunction, and less intensity of treatment. Over-resuscitation may contribute to a worse outcome. Many patients remain hypovolemic after initial resuscitation. Others present very low diastolic arterial pressures (DAP) reflecting profound vasoplegia and may benefit from early norepinephrine (NE) instead of fluids. Administering fluids in this setting could increase the risk of fluid overload. In addition, relevant myocardial dysfunction is present in a significant number of patients. Pulse pressure (PP) and DAP evaluation may help clinicians to individualize initial management sparing unnecessary fluid loading. Objective: To test if a CRT-targeted resuscitation based on clinical hemodynamic phenotyping can improve a hierarchical clinical outcome - mortality, time to cessation of vital support, and length of hospital stay, all within 28 days - in septic shock patients as compared to usual care. A2 is a multicenter randomized controlled trial (RCT) comparing a CRT-targeted, hemodynamics-based resuscitation strategy with usual care in patients with early septic shock during a 6 h intervention period. A sample size of 1500 patients was calculated to detect a 6% absolute reduction in mortality in the CRT group, and the win-ratio method will be used to test the superiority in the hierarchical outcomes mentioned above. The combination of a CRT-targeted strategy with a clinical hemodynamic phenotyping may aid to personalize initial resuscitation with potential additional fluid-sparing effects. To categorize patients at baseline according to PP may conduct patients with low PP (<40mmHg) to fluid responsiveness (FR) assessment and eventually fluid boluses, while patients with normal PP will be treated according to DAP, adjusting NE when to avoid further fluids loading in patients who normalize CRT. Fluid resuscitation will be focused on FR+ hypoperfused patients to prevent harmful fluid administration in FR- patients.

This prospective randomized single center study investigates to what extent the removal of elevated cytokine levels by hemoadsorption has a positive effect on the treatment of patients in septic shock by stabilizing the circulatory situation.

This trial will be a randomized controlled single-center pilot trial comparing the use of angiotensin II versus standard-of-care (SOC) vasopressor therapy in adult patients with persistent vasodilatory shock despite moderate-dose norepinephrine, with a primary outcome of the ability of novel biomarkers (renin and DPP3) to predict blood pressure response to angiotensin II. Given our angiotensin II will be compared to SOC, this will be an unblinded study.

Septic shock is one of the causes of death in ICU and hospital. Refractory shock is the problem which healthcare providers should recognize though it is difficult to handle with. The corticosteroid called hydrocortisone is one of the treatment in refractory septic shock which requires vasopressor to maintain blood pressure. In recovery phase of septic shock and weaning off vasopressor, there is no definite way to taper off hydrocortisone.

One of the major health problems in the world is sepsis, the number of cases of which, according to WHO, annually reaches 20-30 million. The decrease in the sensitivity of bacterial pathogens to antibiotics, the widespread use of invasive diagnostic and treatment methods, the increased role of opportunistic microorganisms and fungi, and the increase in the number of people with severe chronic diseases led to an increase in the incidence of sepsis in the period from 1979 to 1979. 2000 by 8.7% per annum. Sepsis is one of the leading causes of hospital mortality in children. Multicenter cross-country studies of pediatric sepsis using a prospective methodology in nearly 7,000 children (mean age 3 years) in 128 pediatric intensive care units (ICUs) in 26 different countries showed that a typical 16-bed intensive care unit should have, on average, at least one child with sepsis. Sepsis and septic shock in most cases are accompanied by the development of multiple organ failure syndrome (MODS). The frequency of adverse outcomes directly depends on the number of organ systems involved in MODS: it increases from 6% in patients with dysfunction of one organ at the time of admission to the intensive care unit to 65% in patients with organ failure of 4 systems or more. Despite modern advances in resuscitation and antimicrobial chemotherapy, if the etiological agent of sepsis is gram-negative flora, mortality can reach 75%. Numerous studies have shown that the use of extracorporeal sorption methods that eliminate endotoxin improves the results of treatment of patients with septic shock. The use of LPS selective adsorption is both an etiological and pathogenetic method of treatment, which justifies the need for its use in the complex intensive care of sepsis and septic shock. The method of hemosorption technology using a cartridge based on a mesoporous supercrosslinked copolymer of styrenedivinylbenzene with an LPS-selective ligand immobilized on the surface, which has the ability to neutralize the biological activity of endotoxin by binding lipid A, the main pathogenic site of LPS. the molecule matters. The main goal of the study was to obtain data on the efficacy and safety of using the Efferon LPS NEO hemosorption column for the adsorption of lipopolysaccharides during extracorporeal detoxification in children aged 1 month to 14 years with sepsis.

Sedation and analgesia in patients with sepsis and hemodynamic instability may be challenging in the ICU. Opioids and propofol can further exacerbate tissue infusion in septic shock by reducing cardiac contractility, increasing vasodilation, and reducing respiratory drive. Ketamine is an NMDA receptor antagonist, which has no effect on respiratory drive and has diastolic airway smooth muscle and anti-inflammatory properties. Esketamine is a dextrorotatory cleavage twice as potent and reduces the incidence of dose-dependent side effects of ketamine. Although it has been successfully used in burn patients undergoing multiple operations and anesthesia-related maintenance analgesia, it has not been reported in ICU septic shock patients undergoing mechanical ventilation. The purpose of this study was to explore the use of esketamine in mechanically ventilated ICU septic shock patients in a single-center randomized controlled trial.