View clinical trials related to Shock.
Filter by:Septic syndromes are a major although largely under-recognized health care problem and represent the first cause of mortality in intensive care units (ICU). While it has long been known that sepsis deeply perturbs immune homeostasis by inducing a tremendous systemic inflammatory response, novel findings indicate that sepsis indeed initiates a more complex immune response that varies over time, with the concomitant occurrence of both pro- and anti-inflammatory mechanisms. As a resultant, after a short pro-inflammatory phase, septic patients enter a stage of protracted immunosuppression. This is illustrated in those patients by reactivation of dormant viruses (cytomegalovirus (CMV) or Herpes Simplex Virus (HSV)) or infections due to pathogens, including fungi, which are normally pathogenic solely in immunocompromised hosts. These alterations might be directly responsible for worsening outcome in patients who survived initial resuscitation as nearly all immune functions are deeply compromised. New promising therapeutic strategies are currently emerging from those recent findings such as adjunctive immunostimulation for the most immunosuppressed patients. The prerequisite for immunostimulation administration (Interferon gama (IFNg), Granulocyte Macrophage Colony Stimulating Factor (GM-CSF), interleukin 7 (IL-7)) however relies on clinicians' capacity to identify patients who could benefit the most from these immunoadjuvant therapies, as there is no clinical sign of immune dysfunctions. In this context, the main objectives of IMMUNOSEPSIS 4 study are: 1. to identify the best biomarkers for sepsis-induced immunosuppression 2. to evaluate ex vivo candidate treatments which could rejuvenate immune functions after septic shock
This is a prospective, multi-centric, randomized, double-blind, parallel, controlled phase-II efficacy clinical study of PMZ-2010 therapy in patients with hypovolemic shock. Centhaquine is highly safe and well tolerated. Toxicological studies showed high safety margin in preclinical studies. Its safety and tolerability has been demonstrated in a human phase I study in 25 subjects (CTRI/2014/06/004647; NCT02408731).
This is a randomized, double-blind, placebo-controlled dose-selection study in which two doses of nangibotide are tested versus placebo.
World Health Organisation (WHO) has identified Dengue as the fastest spreading mosquito-borne disease in the world. This study follows on from the National Medical Research Council STOP Dengue Translational and Clinical Research flagship grant. Differential serum concentrations of alpha2-macroglobulin (A2M), chymase (CMA1) and vascular endothelial growth factor A (VEGFA) were discovered to accurately identify dengue patients who will develop severe disease from those who will not, prior to the development of severe complications. By identifying patients at risk of developing severe disease in advance, these patients can be monitored more closely to provide more timely fluid interventions, and hopefully further reduce fatality rate. At the same time, more patients who are not at risk can be managed as outpatients to further minimize unnecessary hospitalization costs and wastage of healthcare resources. After discovery of the Dengue prognostic biomarkers, a multivariate logistic regression predictive model was built from a small retrospective derivative cohort (50 subjects), followed by validation using a small prospective validation cohort (50 subjects). The model had a receiver operating characteristic (ROC) curve AUC (area under the curve) of 0.944, and a sensitivity and specificity of 90% and 91% during validation, respectively. The premise of this study is to validate our observations in a larger prospective cohort (200 subjects). At the same time, we would like to better understand the characteristics of the Dengue prognostic biomarkers, especially whether there are situations in which the biomarkers cannot predict Dengue Haemorrhagic Fever (DHF)/ Dengue Shock Syndrome (DSS) and/or Severe Dengue (SD) and how the biomarkers can further improve the cost-effectiveness of the clinical management of Dengue patients.
This is a prospective, multi-centric, randomized, double-blind, parallel, controlled phase-III efficacy clinical study of PMZ-2010 therapy in patients with hypovolemic shock. Centhaquine (previously used names, centhaquin and PMZ-2010; International Non-proprietary Name (INN) recently approved by WHO is centhaquine) has been found to be an effective resuscitative agent in rat, rabbit and swine models of hemorrhagic shock, it decreased blood lactate, increased mean arterial pressure, cardiac output, and decreased mortality. An increase in cardiac output during resuscitation is mainly attributed to an increase in stroke volume. Centhaquine acts on the venous α2B-adrenergic receptors and enhances venous return to the heart, in addition, it produces arterial dilatation by acting on central α2A-adrenergic receptors to reduce sympathetic activity and systemic vascular resistance.
Acute circulatory failure reduces oxygen delivery below cellular requirements, potentially leading to organ failure. Intravenous fluids are generally administered with the aim of increasing cardiac output and restore organ perfusion. Nevertheless, only 50% of patients increase their cardiac output, while in the remainder not only does fluid loading provide no benefit but it also leads to volume overload (peripheral and pulmonary edema). There are two types of resuscitation fluids, colloids and crystalloids. Given their oncotic pressure, colloids should remain in the intravascular space, while crystalloids distribute into the whole extracellular compartment, potentially increasing the risk of tissue edema. Surprisingly, only few studies directly compared albumin and crystalloids in terms of their overload-related side effects. Electrical impedance tomography (EIT) is a noninvasive, radiation-free, lung imaging modality, which shows lung impedance as determined by small electrical currents. An increase in intrapulmonary gas volume increases impedance, while an increase in blood or fluid volume, lowers it. EIT has a high temporal resolution, allowing to assess ventilation and perfusion in real-time. Preliminary data suggest its value to assess the variations of intrathoracic fluid in patients with pulmonary edema. The aim of the present single-blind, randomized, controlled study is to compare the effect of a fluid challenge with albumin vs. crystalloids on EIT-derived lung impedance in a group of 56 critically ill patients with acute circulatory failure. Our hypothesis is that fluid challenge with albumin leads to a lesser decrease in lung impedance, that is a lesser extravasation of fluids into the lungs. Hemodynamic and respiratory variables, blood samples, cardiac ultrasound and EIT measurements will be recorded before the fluid challenge, and repeated at the end of fluid infusion, 20 and 60 minutes after. Factorial Analysis of variance for repeated measures will be used to assess the effects of fluid loading
Extracorporeal membrane oxygenation (ECMO) had been used to treat refractory hypoxemia associated with acute respiratory distress syndrome (ARDS). There were reported good outcome associated with ECMO for ARDS caused by influenza infection from several ECMO centers. However, the outcome of ECMO support in lower ECMO experience center had not been evaluated. This study aimed to evaluate the outcome of ECMO, comparing with conventional treatment among severe hypoxemic ARDS patients who were admitted in limited ECMO experience hospital.
Septic shock is a major health problem, with several million cases annually worldwide and a mortality approaching 45%. Tachycardia is associated with excess mortality during septic shock. This pejorative effect could be related to the increase in cardiac metabolic demand, impaired cardiac diastolic function, and/or poorer tolerance of administered exogenous catecholamines. Recent studies suggest that controlling the heart rate with the use of beta blockers has beneficial effects on the morbidity and mortality of septic shock. However, the negative effects of beta-blockers on cardiac contractility and blood pressure complicate their use during septic shock, particularly because about one-half of patients exhibit a septic-associated systolic dysfunction, which often requires the use of inotropes. Ivabradine is a selective inhibitor of If channels in the sinoatrial node. It is a pure bradycardic agent with no deleterious effect on other aspects of cardiac function (contractility, conduction and repolarization) nor on blood pressure. Ivabradine can therefore alleviate sinus tachycardia without negative inotropic effects nor hypotension. Moreover, the improvement in diastolic function (ventricular filling) with ivabradine may increase stroke volume, even in case of severe impairment of systolic function. Controlling sinus tachycardia with ivabradine during septic shock would allow reducing cardiac metabolic demand (and potentially associated ischemic events) and improving the chronotropic tolerance of exogenous catecholamines. The effectiveness of ivabradine in controlling the heart rate was demonstrated in various clinical settings such as coronary artery disease, chronic heart failure and cardiogenic shock. Encouraging preliminary data are reported in critically ill patients.
The aim of this study is to analyze in patients with undifferentiated shock, the concordance of initial treatment before and after Focus cardiac ultrasound (FoCUS) in comparison with the reference one established by an adjudication committee
Severe sepsis and septic shock remain of particular gravity in children with a current mortality of about 20 % , despite the international prevention campaigns " survival sepsis campaign ". Septic shock associates a macrocirculatory and a microcirculatory dysfunction. The volume expansion remains the treatment of severe sepsis at the initial phase supplemented by the use of vasopressors and / or inotropes. Nevertheless , it is essential to predict the fluid responsiveness after volemic expansion because fluid overload is associated with an increased morbidity in children. In studies , the volume expansion is considered effective if it allows an increase in cardiac output of more than 15 % compared to the basal level. However, their conditions of use remain very restrictive and not applicable to most of our patients ( tidal volume ≥ 7ml / kg , PEEP sufficient , absence of cardiac arrhythmia and effective sedation ) . To date , no index can be used for all patients with invasive mechanical ventilation. It therefore seems appropriate to develop new tests to predict the response to volume expansion in children with septic shock hospitalized in pediatric intensive care. A recent study has validated a test to predict the response to volume expansion in adults: injection of a mini-bolus of 50 ml of saline over 10s. The aim of the study is to evaluate the effect of mini bolus fluid to predict response to fluid expansion in pediatric septic shock.