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Active clinical trials for "Shock"

Results 471-480 of 843

Safety of and Immune Response to DEN4 Vaccine Component Candidate for Dengue Virus

Dengue Shock SyndromeDengue Hemorrhagic Fever

Infection with dengue viruses is one of the leading causes of hospitalization and death in children in several tropical Asian counties. The World Health Organization (WHO) estimates that these viruses are responsible for more than 50 million cases of dengue fever (DF) and approximately 0.5 million cases of the more severe disease, dengue hemorrhagic fever/ shock syndrome (DHF/DSS) annually. Because dengue viruses are endemic in most tropical and subtropical regions, keeping more than 2 billion persons at risk for acquiring dengue, the WHO has made development of a dengue vaccine a top priority. The purpose of this study is to evaluate the safety and effectiveness of a candidate DEN4 vaccine aimed at preventing infection with dengue virus serotype 4.

Completed25 enrollment criteria

Investigations of New Markers in Patients With Shock

Shock State

Shock is a severe deficiency in oxygen at the cell level which could lead to the death.The study was aimed at finding markers of treatment response in patients with shock, with a better accuracy than that of lactate actually used : hypoxia-inducible factor (HIF), circulating DNA (cDNA), and plasma from cells (MPs).

Completed5 enrollment criteria

Diagnostic Study of Adrenal Cortical Function in Children With Septic Shock

Septic Shock

OBJECTIVES: I. Examine adrenal cortical function and the incidence of adrenal dysfunction in children with septic shock. II. Examine the mortality, length of stay in the PICU, and incidence of multiorgan failure in children with adrenal dysfunction and septic shock.

Completed10 enrollment criteria

Macro and Microcirculatory Effects of the Combination of Norepinephrine and Octreotide for the Treatment...

Haemorrhagic ShockVariceal Hemorrhage

Octreotide is used to decrease portal pressure of cirrhotic patients admitted for variceal bleeding. When patients are in haemorrhagic shock, the recommended drug to increase arterial pressure is norepinephrine. Microcirculatory effects of octreotide when it is added to noradrenaline has not been investigated yet. The aim of the study is to evaluate the effect of octreotide plus norepinephrine for patient with haemorrhagic shock after variceal bleeding.

Withdrawn13 enrollment criteria

Effectiveness of Intravenous Immunoglobulins (IVIG) in Toxic Shock Syndromes in Children

Staphylococcal InfectionStreptococcal Infection

IGHN2 is an international, multicenter, double blind, randomized controlled trial aimed at assessing the efficacy on organ dysfunctions of Intravenous Immunoglobulins (IVIG) treatment in the acute phase of streptococcal or staphylococcal toxic shock syndrome in children.

Withdrawn26 enrollment criteria

Vasopressin or Norepinephrine in Vasoplegic Shock After Non-cardiac Surgery

Circulatory ShockNon-cardiac Surgery

The purpose of the present study is to evaluate the effect of vasopressin compared to norepinephrine on the clinical complications of patients with vasospastic shock after noncardiac surgeries.

Withdrawn13 enrollment criteria

Angiotensin II vs. Vasopressin in Septic Shock

Septic Shock

This will be a randomized controlled unblinded pragmatic single-center pilot trial of the use of vasopressin vs. angiotensin II as a second-line vasopressor in patients with septic shock and persistent hypotension despite moderate-to-high doses of norepinephrine.

Withdrawn27 enrollment criteria

Evaluation of the Role of Hydrocortisone Either Alone or Combined With Fludrocortisone in the Outcome...

Septic Shock

During Infection, oflfending microbes interact with the host immune system producing a downstream inflammatory cascade involving cytokines and other mediators, which in turn triggers a systemic response. The resultant effects linclude vasodilation, increased vascular permeability, myocardial depression, and impairment of the coagulation cascade, resulting in global imbalance of systemic oxygen supply and demand. During the late stage of sepsis, immunosuppression predominates, leading to multi-organ dysfunction and further clinical deterioration . Sepsis is defined as life-threatening organ dysfunction caused by a dysregulated host response to infection with two or three on Quick Sepsis-related organ failure assessment score (qSOFA). Septic shock is defined as the presence of sepsis and refractory hypotension to fluid management. Vasopressors are needed to maintain systolic blood pressure more than 90mmHg or mean blood pressure more than 65 mmHg . Experimental and Clinical evidence suggests that sepsis is associated with dysregulated response of Hypothalamic-pituitary-adrenal axis that may involve any of the steps from cortisol production to cortisol use by cells . Glucocorticoid therapy for the treatment of septic shock remains controversial, with conflicting evidence regarding a mortality benefit. It has been used in patients with septic shock who remained hypotensive after fluid and vasopressor resuscitation. Fludrocortisone is a corticosteroid and acts as a powerful mineralocorticoid along with some additional but comparatively very weak glucocorticoid activity. Relative to cortisol, it is to 10 times the glucocorticoid potency but 250 to 800 times the mineralocorticoid potency . Fludrocortisone is added to hydrocortisone to provide additional mineralocorticoid potency. The rationale for adding mineralocorticoid treatment is that an experimental sepsis study showed marked nuclear factor NF-κB mediated down regulation of vascular mineralocorticoid receptors . Corticosteroids attenuate inflammation in various organs an effect partly related to inhibition of nuclear factor NF-κB. Improve cardiovascular function by restoring effective blood volume through increased mineralocorticoid activity and by increasing systemic vascular resistance through vascular α-Adrenergic responsiveness and reduces inflammation-mediated vasodilation .

Completed10 enrollment criteria

Carotid Doppler and EEOT for Fluid Responsiveness Prediction

Septic Shock

Fluid responsiveness prediction prior to fluid challenge administration is a topic of interest, which has been extensively investigated, but remains challenging. In clinical practice, functional hemodynamic tests (FHT) consisting of maneuvers that affect cardiac function and/or heart-lung interaction, have been introduced in order to identify fluid responders and non-responders without fluid challenge administration. Changes in cardiac output induced by the Passive Leg Raising (PLR) test reliably predicted the increase in cardiac output to volume expansion. New approaches have been recently developed based on changes in respiratory dynamics, such as a transient increase in tidal volume, or a lung recruitment maneuver or an end-expiratory occlusion (EEO) test. The EEO leaded to an increase in venous return, cardiac preload and stroke volume in preload-responsive patients. The authors found that an increase in cardiac output ≥ 5% during a 15-s EEO reliably predicted its response to a 500-ml saline infusion. However, in order to identify the rapid and transient increase in cardiac index during the EEO, continuous and instantaneous cardiac output monitoring is necessary. Pulse contour analysis methods provide a beat-to-beat estimation of cardiac output and had been used in most of studies validating the EEO test. Carotid doppler is a non-invasive, bedside, easy to use ultrasound technique that measuring blood flow peak velocity (CDPV) and duration of systolic component of each cardiac cycle (from the onset to dicrotic notch- Flow time - FT) allows a reliable estimation of fluid status and could be an interesting alternative to track changes in SV and cardiac output.

Completed11 enrollment criteria

Effect of a Continuous Infusion of Esmolol on Stroke Volume in Patients With Hyperdynamic Vasoplegic...

ShockSeptic

The main objective of this study is to evaluate the effectiveness of the administration of a short acting beta-blocker in terms of effective increase in stroke volume (at least 15%) after 4 hours initiation of therapy in septic shock in patients with a hyperkinetic profile after 12-24 hours of care. This research seeks to demonstrate that the proportion of patients with an increase in the systolic ejection superior or equal to 15% (relative to baseline) at four hours is different between the two arms of the study: (1) an experimental arm where patients receive an esmolol infusion according to a predetermined procedure and (2) a control arm where patients receive a saline infusion according to a predetermined procedure.

Withdrawn27 enrollment criteria
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