View clinical trials related to Multiple Organ Failure.
Filter by:Critical illness in the ICU setting has high medical and socioeconomic importance. Critically ill patients frequently develop severe neurologic impairment during their course of disease, typically presenting as critical-illness-polyneuropathy (CIP), which is associated with an increased mortality rate. To date neither strategies are available to predict nor to specifically treat CIP. Diagnostic tests to determine CIP during the course of critical illness are available through nerve conduction studies. Further research is needed to find diagnostic tools to identify patients who are on high risk to develop CIP, which could encourage the evolution of new therapeutic strategies for CIP patients. The aims of the study are: 1. An early detection of changes in intramural neuronal networks of human colon samples induced by human blood serum from critically ill patients in order to predict the development of CIP 2. The comparison of different diagnostic tests to diagnose and monitor CIP during the course of critical illness (neurologic examination versus nerve conduction study versus neuromyosonography)
Importance of gastrointestinal (GI) function in critically ill patients has been recognized, but until now there is no validated clinical tool to monitor GI dysfunction as part of multiple organ dysfunction syndrome (MODS). The general aim of current project is to develop a five grade score (0-4 points) for assessment of GI function similar to SOFA sub-scores used for assessment of other organ systems. 500 consecutive adult patients admitted to the intensive care unit will be monitored for gastrointestinal symptoms, intra-abdominal pressure (IAP) and acute gastrointestinal injury (AGI) grades [1]. In 200 patients from these, plasma and urinary levels of possible biochemical markers of intestinal injury will be assessed. Objectives: - To determine the prognostic value of gastrointestinal symptoms alone and in combination with intra-abdominal pressure (IAP), and acute gastro-intestinal injury (AGI) grades in predicting the ICU-, 28 days and 90 days mortality of adult intensive care patients (Part A of the study) - To describe the blood and urine levels of biochemical markers of intestinal injury in general cohort of intensive care patients (Part B of the study). - To compare the prognostic values of the intestinal-specific plasma parameters (IFABP, citrulline, ILBP, and D-lactate) with the gastrointestinal symptoms, AGI grades, and the SOFA score in predicting of ICU-, 28 days and 90 days mortality of adult intensive care patients (Part B of the study) Study design: prospective, observational, multicenter study Patient population: All consecutive adult critically ill patients (25 to 50 patients for each study site, 500 patients in total) in need for intensive care admission during maximum 4 weeks of study period. Duration of the study: for the individual patient 7 days and follow-up of 90 days Primary study outcome: 28 and 90 days all-cause mortality Secondary outcomes: ICU and hospital mortality, ICU length of stay, hospital length of stay, duration of mechanical ventilation, multiple organ failure as a cause of mortality, plasma and urinary levels of intestinal fatty-acid binding protein (I-FABP), citrulline, ileal lipid binding protein (ILBP), and D-lactate in general cohort of intensive care patients.
The gastrointestinal dysfunction occurs frequently during the intensive care unit (ICU) stay and is associated with a worse prognosis. The gastrointestinal failure (GIF) is diagnosed based on symptoms such as bowel distension, ileus, diarrhea, digestive bleeding, or intestinal ischemia. A GIF score based on has been demonstrated to be correlated with outcome, with higher scores indicating higher risk of death. However, GIF may be occult or clinical signs can go undetected in critically ill patients due to the frequent use of analgesic, sedative or neuromuscular blocking agents, acute neurologic diseases, or delirium. Citrulline is a potential biomarker for small bowel function in critically ill patients with maintained renal function. Normal plasma citrulline levels (12-55 µmol/L) are determined by the balance between gut synthesis and kidney degradation. GIF is involved in the pathogenesis of multiple organ dysfunctions and failures (MOF) through various mechanisms, and it is often associated with high intra-abdominal pressure (IAP). IAP greater than 12 mmHg, may lead to abdominal compartment syndrome (ACS) and MOF, including cardiac, respiratory and kidney failure. Studies have suggested that GIF can be the consequence rather than the cause of MOF. The aim of this study is to investigate if plasma citrulline levels is associated with a clinical diagnosis of GIF, and may predict the development of MOF.
Severe acute respiratory failure (ARF) requiring prolonged mechanical ventilation is the most common form of acute organ dysfunction in the hospital, and is often associated with multiple organ failure (MOF), high mortality, and functional impairment. Most studies on ARF have focused on patients in the intensive care unit (ICU) after they have been on mechanical ventilation for days and end organ damage is already established. The overall goal of this proposed project is to improve the outcomes of patients at high risk for developing severe ARF and prolonged mechanical ventilation in and outside of the ICU. The project aims to intervene early in high risk patients with an electronic medical records (EMR)-based, patient-centered checklist of common critical care practices aimed at preventing lung injury and hospital acquired adverse events that commonly lead to organ failure (Prevention of Organ Failure checklist -PROOFcheck). This application proposes a stepped-wedge, clustered randomized control trial to determine the utility of PROOFcheck to improve survival and reduce the duration of mechanical ventilation and multiple organ failure in patients identified as high risk for progressing to severe ARF and prolonged mechanical ventilation. The aims in the UH2 phase are: 1) to refine a previously validated Lung Injury Prediction Score into a pragmatic, EMR-based early prediction model to Accurately Predict Prolonged Ventilation (APPROVE), which will automatically identify patients anywhere in the hospital who are at high risk for developing severe ARF requiring mechanical ventilation >48 hours; 2) to incorporate PROOFcheck into the EMR to prompt clinicians on care practices to limit lung injury, prevent adverse events, and avoid additional organ failure; and 3) to establish the infrastructure for the proposed trial. The proposed pragmatic trial will harness the hospital-wide EMR to identify patients at high risk for prolonged mechanical ventilation with APPROVE for intervention with PROOFcheck. As such, the proposed trial aims to break out of the clinical silos by which care is currently organized in the hospital and bring patient-centered, context appropriate care to the acutely ill patient wherever and whenever the patient's condition requires it.
The purpose of this study is to determine the pharmacokinetic properties of two different dosage regimens of intravenous vitamin C in patients admitted to the Intensive Care Unit with life-threatening illness.
Several studies point at a potential relationship between vitamin D deficiency and worse outcome in critically ill patients admitted to the intensive care unit. It is linked with the lack of vitamin D pleiotropic effects in the state of hypovitaminosis D. The pleiotropism of vitamin D is dependent on a specific feature of vitamin D receptor (VDR) namely polymorphism and its universal existence in the human body. Vitamin D pleiotropism is linked with cancer cells inhibition, a modulation of the immune system, an influence on cardiovascular system and neuroprotection. In 35-65% critically ill patients hospitalized in the intensive care unit the acute kidney injury (AKI) is diagnosed. Acute kidney injury increases significantly the probability of death. The standard therapy of a severe AKI in many intensive care units is the regional citrate anticoagulation continuous renal replacement therapy by means of continuous veno-venous hemodiafiltration (CVVHDF). The specificity of the regional citrate anticoagulation by means of precise ionized calcium and citrate dosing evokes questions regarding its influence on vitamin D and entire calcium-phosphate metabolism in the state of a severe AKI treated with regional citrate anticoagulation continuous renal replacement therapy. The intention of that trial is to measure vitamin D plasma levels and other parameters (parathormone, ionized and total calcium, magnesium, phosphate, albumin, globulin) linked with calcium-phosphate metabolism in the human body. We would like to assess potential relationships between the regional citrate anticoagulation continuous renal replacement therapy and these parameters.
For Intensive Care Units (ICU) patients, Multiple Organ Dysfunction Syndrome (MODS) is a very common complication yielding high morbidity and mortality. Inadequate regional perfusion of certain organs (gut, kidney, liver, etc) often caused by shock is the main cause of MODS. Current practice uses cardiac output data and blood pressure to manage shock but there are still lacks of information about the regional perfusion. This leads to late MODS diagnostics preventing the implementation of adequate treatment. Gut perfusion monitoring seems to be a good target to assess the microcirculation but, nowadays, no practical methods or devices are available to measure the gut perfusion, and the current monitoring methods are not specific (CO, BP, OPS-SDF, PCO2, etc). "MC Monitor" trial is a prospective, multi-center pilot study, enrolling 10 patients. The probe will be used by intensivists on ICU patients with a risk of shock and requiring mechanical ventilation. The probe will be placed in the patient with an endoscopic procedure by a gastroenterologist (standard procedure for post-pyloric tubes placement). This procedure will be used to assess the status of the gut mucosa prior to the placement of the APD probe.
The purpose of this study is evaluate if K3, a novel biomarker, sampled at arrival to the emergency department can be used to predict the development of organ failure measured as SOFA score. K3 consists of lactate dehydrogenase, albumin and magnesium combined.
One of the essential treatments for assisting patients in their recovery from illness is the provision of nutrition in a liquid form which is delivered into the stomach or as a fluid into the vein. Until recently the benefits of nutrition were undervalued in the critically ill, however, it has now become clear that targeted nutrition can positively affect a person's outcome. This is particularly important for patients who are significantly unwell and require increased amounts of nutrition to support recovery. Inadequate nutrition therapy leads them to rapidly lose weight, predominantly in the form of muscle loss which greatly contributes to their poor recovery. Whilst nutrition is essential for recovery, there are several issues with the delivery of nutrition via the stomach (the most commonly used method of delivering nutrition in the critically ill). For many reasons, patients are unable to tolerate large quantities of nutrition via the stomach and in addition to this there are hospital or procedural reasons for nutrition being turned off for lengthy periods of time. As such, this results in patients being delivered only about half of the nutrition that is planned. One potential way to overcome this is to deliver nutrition via the vein, whilst nutrition into the stomach continues, with the aim to meet the energy gap that is lost by inadequate nutrition via the stomach. In this study of 100 patients, we will deliver combined nutrition via the vein and stomach in 50 patients and the other 50 patients will receive nutrition as per normal practice. We will measure important outcomes for these patients to determine if this allows us to meet significantly more of their nutrition needs. This study will also help us determine how best to design a larger study of this strategy.
The purpose of this study is to learn more about how to treat patients with severe injuries related to trauma and to prevent failure of vital organs in this patient population. Approximately 200 severely injured patients with blunt trauma and 40 healthy volunteer subjects will be enrolled in this study. During the study seven blood samples (4-5 mls) will be collected from patients who have suffered severe trauma over a 28 day period. A one time 5 ml blood sample will be collected from the healthy volunteers. Clinical data will be collected daily while patients are hospitalized. The initial blood sample must be collected from qualifying patients within the first 12 hours of admission to the hospital. The reason for blood sampling is to validate a rapid genomic test in real time. Once confirmed, this genomic test can be used to identify patients who will have a complicated clinical course and would, therefore, be good candidates for interventional, immunomodulatory therapies.