View clinical trials related to Shock, Septic.
Filter by:Septic shock and multi-organ failure are among the most frequent causes of death in the ICU. Patients with septic shock require early implementation of hemodynamic therapy to keep the duration of shock state and with it microcirculatory disturbances as short as possible. In the septic shock guidelines by the american association SCCM the diagnosis of volume status is based on filling pressures, like CVP. Some studies show, that the CVP depends not only on the intravascular volume, but also on the right ventricular compliance, pulmonary vascular resistance as well as intrathoracic pressure. The aim of the Study is to evaluate if the duration of septic shock can be reduced through algorithm driven volume therapy orientated to thermodilution based volume parameters (GEDI and ELWI)
The purpose of this study is investigate the effects on systemic hemodynamics and organ function of esmolol when used to maintain heart rate below a predefined threshold in patients with septic shock.
A prognostic score was proposed by the investigative team to predict death at 1 month. This score is based on certain biological markers, scored under emergency conditions in the first 24 hours of routine clinical practice management for septic shock. The main objective of this multicenter study is to validate the performance of the score in terms of area under the ROC curve and negative predictive value.
The purpose of this randomized, comparative, open and multi-centre study is to show that two sessions of hemoperfusion with Toraymyxin performed within maximum 36 hours after the surgery of a peritonitis by hollow organ perforation reduce the mortality in patients suffering from septic shock.
The purpose of this study is to assess the concordance of therapeutic changes proposed after an early hemodynamic evaluation (hemodynamic profile) in septic shock patients using jointly the transpulmonary thermodilution technique and transesophageal echocardiography (TEE).
Patients with severe sepsis or septic shock suffer from life-threatening infections. Fast and adequate therapy with antibiotics is crucial for survival. Current guidelines recommend the application of broad-spectrum antibiotics within 1 hour after diagnosis. However, recent studies showed that such treatment is delayed for several hours. In this study, medical staff of participating hospitals is trained to achieve a duration until antimicrobial therapy of less than 1 hour. Tools of change management are used. The data are compared to a control group (hospitals without intervention). It is hypothesized that a multifaceted educational program decreases duration until antimicrobial therapy and improves survival.
The ideal mean arterial pressure in patients with septic shock is unknown. The expert's recommandations have stated a target between 65 and 70 mm Hg. However the scientific basis are weak. Indead there are only few prospective studies which addressed this question without clear answer. Therefore we designed a RCT in order to assess the effect on mortality of two levels of mean arterial pressure in patients with septic shock.(800 patients, 30 centres)
The primary purpose of this study to evaluate the effect of two different doses of AZD9773 (CytoFabâ„¢) versus placebo on ventilator free days (VFDs) over the first 28 days after the start of dosing with AZD9773 in patients with severe sepsis and/or septic shock, who are already receiving appropriate standard of care treatment for sepsis.
The two co-primary objectives of this study are to assess in Japanese patients with severe sepsis and/or septic shock: 1) the safety and tolerability of two different doses of intravenous AZD9773 and 2) the PK of AZD9773. The secondary objective is to make a preliminary assessment of the pharmacodynamics of two different doses of intravenous AZD9773 in Japanese patients with severe sepsis and/or septic shock.
A growing number of critically ill patients survive intensive care to be discharged from hospital. However, critical illness and prolonged bedrest are associated with muscle wasting with subsequent implications for recovery of normal physical function. Thus, one year after discharge, survivors of septic shock have reported prolonged and severe impairment of physical function. Early interventions employed in the ICU to counteract loss of muscle mass may potentially improve physical outcome and reduce the overall burden of critical illness. As a potential supplement to physical therapy, transcutaneous electric muscle stimulation (TEMS) is a non-invasive method directed at maintaining skeletal muscle function through artificially induced contractions that are independent of patient efforts. TEMS has previously proven effective at preventing loss of muscle mass and force in a number of non-ICU patient groups, but has only been assessed sparsely in an ICU population where both immobilisation and systemic inflammation are present. Therefore, the aim of the present study was to assess the effect of early TEMS on muscle volume in patients admitted to the intensive care unit with septic shock. The investigators hypothesized that this intervention would preserve muscle volume during septic shock.