View clinical trials related to Severe Sepsis.
Filter by:This study is an evaluation of the effect of ketanserine on sublingual microcirculation in intensive care patients with severe sepsis.
Major microvascular blood flow alterations have been documented in patients with severe sepsis. It was also demonstrated that the microcirculation improved in survivors of septic shock but failed to do so in patients dying from acute circulatory failure or with multiple organ failure after shock resolution. Early, effective fluid resuscitation is a key component in the management of patients with severe sepsis and septic shock with the goal of improving tissue perfusion. The best fluid in this early resuscitation phase has been and still is under debate. The aim of this study is to evaluate the effect of Three different Fluids(Albumin 5%, Normal Saline, HES 130 kD) on microcirculation in severe sepsis/septic shock patients using Sidestream Dark Field (SDF) Microscopy and Near-Infrared Spectroscopy (NIRS) analysis.
This is an observational study to understand the changes in alveolar dead space in medical critically ill patients with severe infection (severe sepsis) requiring mechanical ventilation and the possibility to predict multi-organ failure. The measurement of alveolar dead space used to require sophisticated equipment and time. New ventilators have microprocessors that allow rapid mathematical calculation with minimal intervention.
This study is to determine whether the intravenous application of 'Ⅳ-Globulin S inj. (Human Immunoglobulin G)' can reduce mortality in patients with severe sepsis or septic shock.
This study aims to test the effectiveness of a single intravenous (IV, through the vein) dose of the study drug, bevacizumab (Avastin), in preventing/reducing the development of Acute Respiratory Distress Syndrome (ARDS), in patients with severe sepsis, who are at high risk for developing ARDS. ARDS is a lung disease caused by a lung injury that leads to lung function impairment. The condition the patient has,severe sepsis, is a medical condition associated with an infection characterized as an immune system inflammatory response throughout your whole body that can lead to organ dysfunction, low blood pressure or insufficient blood flow to one or more of your organs.
The purpose of this study is to determine if Selective Adsorption System for Removal of Bacterial Toxins (S.A.F.E.BT) therapy is effective in the treatment of severe sepsis.
Severe sepsis/septic shock is a serious condition associated with high mortality rate. Hydrocortisone has been recommended as a useful treatment to decrease mortality in hemodynamically unstable septic shock patients, not response to fluid and moderate dose of vasopressor. During the progression of severe sepsis/septic shock, multi-organ dysfunction can develop. Acute lung injury (ALI) and its more severe form, acute respiratory syndrome (ARDS) is one of the common organ dysfunction associated with septic shock. Information from a meta-analysis suggested that moderate dose of hydrocortisone may improve the ARDS patients' outcome. Whether hydrocortisone can effectively prevent disease progression and death in severe sepsis/septic shock patients who complicated with ALI/ARDS has not been proven.
The goal is to develop a two-tiered monitoring system to improve the care of patients at risk for clinical deterioration on general hospital wards (GHWs) at Barnes-Jewish Hospital (BJH). The investigators hypothesize that the use of an automated early warning system (EWS) that identifies patients at risk of clinical deterioration, with notification of nurses on the GHWs when patients are identified, will reduce the risk of ICU transfer or death within 24 hrs of an alert. As a substudy, the investigators will pilot the use of a wireless pulse oximeter to establish feasibility and to develop algorithms for a real-time event detection system (RDS) in these high-risk patients.
Study will evaluate the safety and potential benefit of talactoferrin (recombinant human lactoferrin) as an addition to the standard care for severe sepsis.
Sepsis is one of the most prevalent and fatal diseases in intensive care units .unfortunately, therapeutic approach to sepsis has remained unchanged for many years. Nowadays, the role of cytokines in pathogenesis of sepsis is obvious. Continuous elevated levels of various cytokines in severe sepsis could result in uncontrolled inflammation status. Breaking of inflammatory cascade may lead to improvement in survival. It seems that modulation of inflammation is one of the strategic plans to conquest sepsis. Therefore, elimination of bacterial toxins and pro-inflammatory cytokines from the systemic circulation by plasmapheresis supposed to be rational approach. Researchers have done several attempts to clarify the efficacy of plasmapheresis in sepsis treatment. However because of inconsistent results, routine use of this procedure in patients with severe sepsis remains controversial. The aim of the present survey is to determine the effect of plasmapheresis on plasma levels of main pro-inflammatory cytokines and evaluate its therapeutic efficacy in improvement of outcome and treatment of severe sepsis.