Active clinical trials for "Shock, Septic"

Sepsis is a global healthcare burden sepsis, it reaches 20-30 million cases annually (WHO data). Numerous studies have shown that extracorporeal hemoperfusion therapies that eliminate endotoxin and\or excess of cytokines improve treatment outcomes in patients with septic shock. Aim of the study: to evaluate safety and feasibility of clinical use of an extracorporeal blood adsorber based on a hypercrosslinked styrene-divinylbenzene copolymer with immobilized lipopolysaccharide (LPS)-selective ligand designed to remove endotoxins from the bloodstream to treat patients with septic shock.

Despite large efforts trying to improve diagnostic and therapy of sepsis have been made over the last decade (e.g. initiation of the Surviving Sepsis Campaign, defining evidence based sepsis therapy bundles) the mortality of septic shock remains high and causes high socioeconomical burden of disease. The purpose of this pilot study is to evaluate the design and conduct of a projected full scale clinical trial.

sRAGE, the soluble form of the receptor for advanced glycation end products, is a novel marker of alveolar epithelial type I cell injury, but is also involved in acute systemic inflammation. The purpose of this observational prospective study is to determine whether sRAGE could be used in an ICU setting as a potential diagnostic and prognostic marker during ALI/ARDS, regardless of associated severe sepsis or septic shock.

Patients with severe infection can develop very low blood pressure. There are many mechanisms leading to this, and one of them appears to involve a hormone called vasopressin. In children as compared to adults, the mechanism and response to low blood pressure are different for reasons that are not clear. One possibility is the difference in the production and/or response to vasopressin. Vasopressin has become part of the treatment of children with low blood pressure in the setting of severe infection, when other treatment has failed, but its use is on the basis of animal and adult studies. The exact timing and dose is uncertain. In this research study, the patients will receive standard treatment for sepsis and septic shock, and the investigators will measure the blood levels of vasopressin and a related compound called copeptin (both are required to understand the mechanism of control involved). Blood will need to be taken from patients without any sepsis so as to be able to compare the values in health and in sickness. The patient groups the investigators have chosen for this are those children who will have blood taken anyway as part of their routine care. The aim of this study is to develop an understanding of the body's hormonal response (with respect to vasopressin) to severe infection in children. The long-term aim is to improve the care of critically ill children with severe infection by using the most appropriate dose of vasopressin at the most appropriate time.

Amikacin dose optimization is challenging in critically ill patients. The use of BestDose software algorithm-based drug optimization could help to achieve the recommended target concentrations (60-80 mg/L) after administration of the second dose of amikacin, associated with improved outcome. The study investigators hypothesize that 80% of patients undergoing drug dosing optimization using the BestDose software in the interventional group will reach the predefined PK/PD targets.

With a prevalence of more than 15% in ICU, septic shock today represents a real public health problem and remains the leading cause of mortality in ICU. Undernutrition is characterized by an alteration of the body composition and in particular by a loss of muscle mass. In intensive care, there are indirect elements suggesting a link between loss of muscle mass and prognosis. Muscle mass results from a balance between the pathway of proteolysis and that of protein synthesis, depending on many factors, not one of the most important are insulin. The protein PTP1B (Protein Tyrosine Phosphatase 1B), by the dephosphorylation of its numerous substrates, constitutes an endogenous regulator of numerous intracellular signaling pathways, including that of insulin. PTP1B could play a role in the protein synthesis abnormalities observed during sepsis leading clinically to impaired body composition including muscle body mass. Therefore, we propose to study the association between PTP1B and loss of muscle mass in patients in sepsis in resuscitation. The intestinal barrier plays an essential role in protecting against microbial luminal flora and the phenomenon of bacterial translocation. Zonulin is one of the major regulators of tight junctions, important actors in the intestinal barrier function. The increase in plasma zonulin levels, greater than 0.6 ng / mg, is directly correlated with increased intestinal permeability (16). However, elevation of plasma zonulin has never been evaluated in septic resuscitation patients. This is why we propose the evaluation of the association between plasma zonulin and the loss of muscle mass in these resuscitation patients.

Norepinephrine (NE) is a potent vasopressor used in septic shock to reverse hypotension. Early infusion of NE was associated with a favorable clinical outcome in a large cohort of patients . When administered early, NE increases cardiac output (CO) in patients with septic shock . This effect was suggested to be mainly related to an increased cardiac preload via the α-adrenergic-mediated decrease in systemic venous capacitance . Whether NE exerts a positive effect on cardiac contractility through β1-adrenergic stimulation is unclear. On the one hand, the sensitivity of β1-adrenergic receptors can be abnormally reduced in septic conditions. On the other hand, such a sepsis-induced down-regulation of β1-adrenergic receptors may occur relatively late and thus, might not be observed when NE is administered early. Our study was designed to examine the inotropic effects of NE when administered in the early phase of human septic shock

Background The arteriovenous difference of partial pressure of carbon dioxide (PCO2) between mixed or central venous blood and arterial blood is the ∆PCO2 or CO2 gap. Previous data demonstrated a strong relationship between ∆PCO2 and cardiac index (CI) at the very early phase of resuscitation in septic shock. Monitoring the ∆PCO2 from the beginning of the resuscitation may be a useful tool to assess the adequacy of cardiac output (CO) in tissue perfusion. Aim of work: To examine behavior of ∆PCO2 during early management of septic shock. Methodology: Seventy-six patients with diagnosis of septic shock admitted to critical care department, Cairo university hospitals. We classified the study population according to initial resuscitation response, initial CO2 gap, or 28-days mortality. The response vs non-response to initial resuscitation, ICU morbidity and recovery rate were the study primary outcomes while secondary outcomes included ICU length of stay (LOS) and 28-day ICU Mortality.

In patients with septic shock, routine arterial blood pressure and central venous pressure are monitored in ICU. Conventional methods such as blood pressure and central venous pressure in septic patients cannot provide sufficient information in the follow-up due to the body's compensation mechanisms. The systemic vascular resistance index, which can be measured invasively or non-invasively with advanced hemodynamic monitoring methods, is a parameter that plays an important role in the management of septic patients. Resistive index (Pourcelot Index) is an ultrasonic measurement method used to evaluate tissue perfusion and microcirculation. Since peripheral tissue perfusion is impaired in septic patients, the investigators think resistive index may be useful for management of sepsis. There are studies in the literature on the use of resistive index in the follow-up of patients. The study will be about whether there is a correlation between the systemic vascular resistance index measured by cardiac output measurement, which is one of the advanced monitoring methods routinely used in the group requiring mechanical ventilation support in patients with septic shock, and the peripheral arterial resistive index, which is routinely used to evaluate tissue perfusion and microcirculation.

To investigate the role of initial venous lactate in predicting the severity progression to overt septic shock and 30-day mortality in non-elderly patients without hemodynamic shock who suspected to have acute infections.