View clinical trials related to Shock, Septic.
Filter by:Critical illness-related corticosteroid insufficiency (CIRCI), a term coined since 2008 by Society of Critical Care Medicine (SCCM), and is characterized by inflammation resulting from inadequate intracellular glucocorticoid-mediated anti-inflammatory activity leading to increased morbidity and mortality in Intensive Care Unit (ICU) patients.1 Severe Sepsis with shock is a common reason for admission to ICU/hospital and may require ionotropic support.2 The current guidelines from SCCM in 2017 suggest using either random cortisol of < 10 ug/dL (<276 nmol/L) or change in cortisol at 60 min after cosyntropin (250 µg) administration from baseline cortisol of <9 µg/dl (<248 nmol/L) to assess of presence of CRCI and recommend use of hydrocortisone in these patients.3 There have been studies done to look at baseline cortisol in patient with severe pneumonia requiring ICU and they have found cortisol level of < 15 ug/dl (<414 nmol/L) can predict CIRCI.4 However, there is no study on assessment of baseline random cortisol levels in patients with septic shock in our local population. The current guidance from Surviving Sepsis campaign suggests a more clinical approach of adding IV corticosteroids only if there is ongoing requirement for vasopressors, which is a new change in contrast to 2016 guidelines.5 This study aims to look the available mean baseline cortisol in these patients to create a reference data for local population.
Randomized, prospective, multicenter, open-label, controlled, parallel-group interventional trial to test the adjunctive effect of therapeutic plasma exchange in patients with early septic shock.
It is known that septic shock is characterized by arterial hypotension, decreased peripheral vascular resistance and hyporeactivity to vasoconstrictor agents, with NO being an important mediator of this organ dysfunction. Data in the literature have shown that hyporeactivity to catecholamines is associated with a decrease in the density of α and ß receptors in the aorta and heart, respectively, as well as an increase in GRK2 levels and that NO contributes to the increase of this kinase in sepsis . Based on this, it is hypothesized that cardiac dysfunction and decreased peripheral vascular resistance observed in sepsis may result from an increase in GRK2 activity and/or expression and its inhibition may be a relevant therapeutic target in septic shock patients. Based on this line, a measurable clinical benefit of paroxetine through the regulation of GRK2 expression in patients with septic shock is postulated.
One of the major health problems in the world is sepsis, the number of cases of which, according to WHO, annually reaches 20-30 million. The decrease in the sensitivity of bacterial pathogens to antibiotics, the widespread use of invasive diagnostic and treatment methods, the increased role of opportunistic microorganisms and fungi, and the increase in the number of people with severe chronic diseases led to an increase in the incidence of sepsis in the period from 1979 to 1979. 2000 by 8.7% per annum. Sepsis is one of the leading causes of hospital mortality in children. Multicenter cross-country studies of pediatric sepsis using a prospective methodology in nearly 7,000 children (mean age 3 years) in 128 pediatric intensive care units (ICUs) in 26 different countries showed that a typical 16-bed intensive care unit should have, on average, at least one child with sepsis. Sepsis and septic shock in most cases are accompanied by the development of multiple organ failure syndrome (MODS). The frequency of adverse outcomes directly depends on the number of organ systems involved in MODS: it increases from 6% in patients with dysfunction of one organ at the time of admission to the intensive care unit to 65% in patients with organ failure of 4 systems or more. Despite modern advances in resuscitation and antimicrobial chemotherapy, if the etiological agent of sepsis is gram-negative flora, mortality can reach 75%. Numerous studies have shown that the use of extracorporeal sorption methods that eliminate endotoxin improves the results of treatment of patients with septic shock. The use of LPS selective adsorption is both an etiological and pathogenetic method of treatment, which justifies the need for its use in the complex intensive care of sepsis and septic shock. The method of hemosorption technology using a cartridge based on a mesoporous supercrosslinked copolymer of styrenedivinylbenzene with an LPS-selective ligand immobilized on the surface, which has the ability to neutralize the biological activity of endotoxin by binding lipid A, the main pathogenic site of LPS. the molecule matters. The main goal of the study was to obtain data on the efficacy and safety of using the Efferon LPS NEO hemosorption column for the adsorption of lipopolysaccharides during extracorporeal detoxification in children aged 1 month to 14 years with sepsis.
Pneumonia is a common infectious disease of the lung, often requiring treatment in the hospital. Clinical scoring systems are available, identifying patients not requiring hospitalization. However, the course of disease of patients in the hospital remains hard to predict. While most patients will recover quickly, some will, despite appropriate treatment, develop a severe course leading to sepsis and systemic responses resulting in organ dysfunction. The PROGRESS consortium aims to identify clinical, genetic, and other molecular markers and combinations there of predicting a severe course of pneumonia in the hospital. Such predictors will, for instance, support decisions on earlier transfer of patients to intensive care and thus improving outcome. PROGRESS-COMORB aims to extend findings from the previous PROGRESS study to patients with more severe preexisting conditions and immunosuppression.
Mottling score and central venous oxygen saturation are described as a clinical evaluation of tissue perfusion. This study describes mottling incidence and mottling score in septic shock patients according to central venous oxygen saturation.
Impact of the hemoadsorption with Cytosorb on hemodynamic in pediatric patients with septic shock: a prospectic pediatric pilot study
The goal of this phase 2, multicenter, randomized, controlled study is to evaluate the effect of albumin treatment on B cell and other immune cell gene exptression in adults with septic shock.
The Non-Invasive Cardiac Output Monitor (NICOM) is a non-invasive monitor capable of measuring cardiac output (CO) and cardiac index (CI), and stroke volume (SV) and stroke volume index (SVI) based on heart rate. Conceptually NICOM is a technology that utilizes a dynamic response characteristic in assessing the need for fluid administration, whereby SVI is measured before and after a fluid challenge with more fluid given only if SVI increases significantly with administered fluid. Dynamic response technologies are intended to replace older, "static" measures such as central venous pressure (CVP) and pulmonary capillary wedge pressures (PCWP) which are single point measurements utilized to assess the need to administer fluid. The aim is to pilot and evaluate the effectiveness of using The Non-Invasive Cardiac Output Monitor (NICOM) technology for goal-directed fluid resuscitation in adult inpatients with sepsis associated acute hypotension and/or evidence of septic shock (Lactate >= 4.0).
This study aim to examine if randomization to different treatment strategies had any effect on the time to normalization of lactate in intensive care patients treated for septic shock.