View clinical trials related to Shock, Septic.
Filter by:The sublingual microcirculation is impaired in sepsis and septic shock. Sidestream dark field imaging technology has been developed into a clinical tool to help the clinician assess the microcirculation at the bedside. The ideal resuscitation fluid has not been identified. The investigators aim to use this new bedside technology to establish the microcirculation properties of two popular resuscitation fluids.
Lactate kinetics will be studied in hospitalized septic patients using a bolus injection of stable isotopically labeled lactate.
Patients hospitalized in the ICU are likely to develop sarcopenia due to a progressive and generalized decrease in muscle mass that is responsible for generalized muscle weakness known as resuscitation neuromyopathy. This neuromyopathy is known make weaning from mechanical ventilation more difficult, which prolongs the hospitalization of patients in the ICU and in hospital. The factors identified as being partly responsible for this neuromyopathy are: immobilization, undernutrition, prolonged duration of mechanical ventilation, inflammation (notably secondary to sepsis), and multivisceral failure. These factors are essentially found in patients in septic shock, which represents about 20% of patients admitted to the ICU, with a mortality rate close to 50%. If the management of septic shock is now well codified (i.e. vascular filling, antibiotics and/or treatment of the infectious focus by surgery +/- organ replacement therapy) as well as the early rehabilitation of ICU patients, no treatments has yet been proven to be effective in limiting the appearance of resuscitation neuromyopathy. For the last ten years, research using electrostimulation (ES) to improve muscle contraction seems to give encouraging results, both for length of hospital stay and the duration of mechanical ventilation, notably through the preservation or a significant increase in muscle strength. On the other hand, other studies did not show a significant effect on muscle strength. These conflicting results are partly related to the heterogeneity of the populations included in the studies and to the different ES approaches used to assess and recondition motor function. In the present STIMUREA study, an original approach is proposed based on experimental research work carried out for many years within U1093 (Pr Charalambos Papaxanthis) which focuses on ES, not of the muscle surface as in most studies carried out in the ICU, but an approach based on ES of the motor nerve. Indeed, the intensity of ES used in previous studies was based on a maximum tolerated intensity leading to a direct recruitment of the most fatiguable motor units (via the activation of motor axons) but leading, in fine, to a decrease in muscle strength. The U1093 research team and previous studies have shown that protocols using high stimulation frequencies (100Hz) associated with pulse widths of 1ms and delivered at low intensities (5-10% of the maximum voluntary contraction, MVC) at the level of the motor nerve, could increase the force developed during the contraction, while decreasing the discomfort induced by the high intensities. This increase in force would be due to the indirect activation of motor neurons via large diameter sensory afferents, thus leading to a recruitment of motor units similar to that observed during voluntary contractions. In a very recent study conducted in our laboratory (INSERM U1093), it was demonstrated that the application of ES to the motor nerve at low intensities did not induce discomfort in healthy subjects, but could induce substantial strength gains (+25%) with adaptations occurring at both in the muscles and the nerves. The proposed study is an innovative, randomized, pilot study based on motor nerve ES in a highly selected population of ICU patients in septic shock and therefore with a high risk of developing neuromyopathy, which is responsible for a significant increase in morbidity and mortality.
The study aims to investigate clinically and prognostically relevant parameters in patients with sepsis and septic shock within a monocentric observational clinical register.
In septic shock there is growing evidence of a state of hemodynamic "disconnection" with seemingly adequate macrocirculatory values despite actual microcirculation failing to meet cellular demand. Norepinephrine (NE) is recommended as first choice vasoactive agent for the treatment of septic shock. However, the dynamic effects of NE on macro- and microcirculation and perfusion parameters has not been described in detail in the context of septic shock, precluding rational individualized titration of NE and fluids, as recommended recently. In the present prospective observational multicenter study in adult septic shock patients, we intend to explore the effects of NE on preload dependency and tissue perfusion by evaluating the correlation and potential discrepancies between macro- and microcirculation both during titration of NE and after fluid resuscitation. The conclusions drawn from our study will contribute to the physiological knowledge necessary for establishing individualized evidence-based bedside management of hemodynamics in the setting of septic shock.
Anemia is a common health problem. Depending on a geographical region, anemia affects even 50% of population. Among patients admitted to the intensive care unit (ICU) anemia may affect as much as 66% of patients. Moreover, many patients develop anemia during the ICU stay. In general population the most common cause of anemia is iron deficiency (ID). The investigators lack information on the incidence of ID and anemia of inflammation (AI) with absolute ID (mixed type of anemia: AI + IDA) or functional ID (AI) in patients with sepsis or septic shock hospitalised in the ICU. Therefore, the aim of the study is to improve diagnosis of iron deficiency (ID) and anemia of inflammation (AI) with absolute ID (AI + IDA) or functional ID (AI) in patients with sepsis or septic shock. ID have negative effects on the body and is associated with impaired production of proteins responsible for transport of oxygen in the blood (hemoglobin) and oxygen storage (myoglobin), and impaired immune function. Development of anemia is associated with well documented complications: organ hypoxia, myocardial infarction, stroke, infection. Replenishment of iron at this early stage may potentially prevent IDA. It is advantageous to replenish iron stores in order to avoid these complications, especially in patients with sepsis or septic shock. In IDA red blood cell transfusion is not recommended as it leads to other numerous complications. Therefore the patients presenting with laboratory results suggesting ID will receive divided doses od parenteral iron. Monitoring of iron replenishment will be based on a new laboratory parameter- reticulocyte hemoglobin equivalent.
Sepsis is an increasingly recognised burden to healthcare systems worldwide. Intravenous fluid therapy is a common first-line intervention recommended by international guidelines. Hyperoncotic preparations of human albumin solution are widely available, but their efficacy has yet to be proven. This randomised feasibility trial will test whether it is feasible to administer hyperoncotic albumin solutions as both fluid resuscitation and as a regular supplement in patients with early septic shock.
Septic shock is a major health problem. In the clinical practice guidelines of the Surviving Sepsis Campaign is recommended to add vasopressin (VP) or epinephrine in case of not reaching the goal of mean arterial pressure (MAP) although with a low level of evidence. This is a clinical trial with the purpose of comparing the efficacy and safety of norepinephrine (NE) plus placebo versus NE plus terlipressin (TP) in adult patients with septic shock and with a Sepsis related Organ Failure Assessment score (SOFA)> 4 points. The primary objective will be a combined end-point: reduction of organic dysfunction measured at 72 h by SOFA score and by the increase in ICU (Intensive care unit) -free days measured at 28 days.
A flexible energy metabolism matched with the contractile needs of the muscle is essential to a normal heart. Loss of metabolic flexibility and cardiac systolic efficiency coexist in Sepsis-induced Myocardial Dysfunction (SIMD), a phenomenon attributed to mitochondrial dysfunction and mishandling of energy substrates. Cardiac positron emission tomography (PET) could allow to quantify non invasively the selection of energy substrates by the hearts in sepsis and will be associated in parallel with functional status (ultrasound cardiography), injury biomarkers, apelinergic and metabolomic blood profiles. Comparisons will be performed between septic and acute on chronic heart failures, with or without systolic dysfunction.
The ECMO-RESCUE study is a prospective, multicenter, non-randomized, cohort study. In this study, we aimed to assessed whether VA-ECMO treatment can improve the 30-day survival rate of patients with sepsis-induced refractory cardiogenic shock.