View clinical trials related to Shock.
Filter by:A prospective, 2-arm, single-blind, randomized controlled clinical feasibility trial design is planned. Forty CCI survivors will be randomized (1:1) to either the PS-PICS (peer support) intervention or usual care (control) group.
Complications are common during tracheal intubation of critically ill patients. Nearly one in five patients undergoing intubation in the intensive care unit experiences cardiovascular collapse, defined as severe hypotension, vasopressor administration, cardiac arrest or death. Cardiovascular collapse during intubation is associated with increased resource utilization and decreased survival. Administration of 500 mL of intravenous crystalloid solution beginning prior to induction may prevent cardiovascular collapse. The only prior trial examining fluid bolus administration during intubation found no effect on cardiovascular collapse or clinical outcomes overall, but a hypothesis-generating subgroup analysis suggested potential benefit to fluid bolus administration among patients receiving positive pressure ventilation between induction and laryngoscopy. Therefore, we propose a randomized trial comparing fluid bolus administration versus none with regard to cardiovascular collapse among critically adults undergoing intubation with positive pressure ventilation between induction and laryngoscopy.
This study will randomize 20 septic shock patients to receive either a single 5 gram dose of IV vitamin B12 (Cyanokit® Meridian Medical Technologies, Columbia, MD) versus placebo in addition to standard of care to test the feasibility of completing clinical and laboratory protocols.
The purpose of this randomized controlled trial is to evaluate the hemodynamic effect of low dose corticosteroid therapy (hydrocortisone and fludrocortisone) in the treatment of adult cardiogenic shock.
The aim of this study is to compare the effect of EMS and conventional physical therapy on strength and muscle mass and development in adult patients with severe sepsis and septic shock.
Persistent hyperlactatemia has been traditionally considered as representing tissue hypoxia, and lactate normalization is recommended as a resuscitation target by the Surviving Sepsis Campaign (SSC). However, other sources contribute to hyperlactatemia such as sustained adrenergic activity and impaired lactate clearance. Only hypoperfusion-related hyperlactatemia might be reversed by optimizing systemic blood flow. Fluid resuscitation (FR) is used to improve cardiac output (CO) in septic shock to correct hypoperfusion. Nevertheless, if persistent hyperlactatemia is not hypoxia-related, excessive FR could lead to flow overload. In addition, kinetics of recovery of lactate is relatively slow, and thus it might be a suboptimal target for FR. Peripheral perfusion appears as a promising alternative target. Abnormal capillary refill time (CRT) is frequently used as trigger for FR in septic shock. Studies demonstrated the strong prognostic value of persistent abnormal peripheral perfusion, and some recent data suggest that targeting FR on CRT normalization could be associated with less fluid loading and organ dysfunctions. The excellent prognosis associated with CRT recovery, the rapid-response time to fluid loading, its simplicity, and its availability in resource-limited settings, constitute a strong background to promote studies evaluating its usefulness to guide FR . The study hypothesis is that a CRT-targeted FR is associated with less positive fluid balances, organ dysfunctions, and at least similar improvement of tissue hypoperfusion or hypoxia, when compared to a lactate-targeted FR. To test this hypothesis, the investigators designed a clinical physiological, randomized controlled trial in septic shock patients. Recruited patients will be randomized to FR aimed at normalizing CRT or normalizing or decreasing lactate >20% every 2 h during the study period. Fluid challenges (500 ml in 30 min intervals) will be repeated until perfusion target is achieved, or dynamic predictors of fluid responsiveness become negative, or a safety limit is reached. The design of our study is aimed at: a) determining if CRT targeted resuscitation is associated with less fluid resuscitation and fluid balances; b) determining if this strategy is associated with less organ dysfunctions; and c) if it results in similar improvement in markers of tissue hypoperfusion or hypoxia such as hepato-splanchnic blood flow or microcirculatory perfusion.
The aim of this study is to evaluate the efficacy of early metabolic resuscitation with combination therapy using vitamin C and thiamine in improving organ function and survival in patients with septic shock.
Background: Electrical stimulation has been used in critical patients as an adjunct strategy of early rehabilitation. In septic or septic shock patients there are reports of only two studies in the literature, with conflicting results. Objective: To evaluate the effects of electrical stimulation in the prevention of muscle mass loss in patients admitted to the ICU with sepsis or septic shock. Methods: This is a randomized, controlled, double-blind clinical trial. Thirty-six patients with a diagnosis of sepsis or septic shock (including patients with sepsis due to the new coronavirus - COVID-19) will be randomly assigned to experimental group and sham group. They will be evaluated in relation to muscle mass, peripheral muscle strength and functional status. They will also be submitted to the collection of inflammatory, metabolic, damage and muscular trophism markers. Expected results: Electrical stimulation is expected to be able to prevent loss of muscle mass in patients admitted to the ICU with sepsis or septic shock. In addition, it is expected to be able to preserve strength in this population without increasing the pro-inflammatory or metabolic response.
The principal purpose of this study is to describe the changes in cerebral circulation (assessed by transcranial ultrasound) and oxygenation (assessed by Near InfraRed spectroscopy, NIRS) during resuscitation for hemodynamic failure (arterial hypotension or shock) in critically ill children treated with vasoactive or inotropic drugs. The secondary objectives are : i) to evaluate the association between an alteration of cerebral circulation and/or oxygenation and an alteration in macro-circulatory parameters (Mean Arterial Blood Pressure and cardiac output) or a bad outcome, ii) to study if cerebral autoregulation is impaired
Recent studies have suggested that the use of left ventricular ejection volume index calculation may aid in the hemodynamic management of critically ill patients. However, a prospective and randomized comparison in patients with heart failure for inotropic dose adjustment has not been described. The objective of this study was to evaluate the efficacy and safety of ejection volume index versus liberal strategy in adjusting dobutamine dose in patients with heart failure and low cardiac output. Methodology: A unicentric, randomized and prospective study will be performed in a comparative manner. Hospital data (test results, medical outcomes, dobutamine dose, complications) of patients will be analyzed for safety and effectiveness. Expected results: The use of ejection volume index is not inferior to the liberal strategy in the initial adjustment of the dose of dobutamine in patients with heart failure.