View clinical trials related to Multiple Organ Failure.
Filter by:This study will enroll approximately 25 pediatric patients to assess the performance and real-world feasibility of multi-biomarker based prognostic and predictive algorithms to aid in the clinical management of pediatric critically-ill patients.
Septic shock is defined as a subset of sepsis with severe metabolism alterations, leading to organ failure. Septic shock is associated with a high mortality, around 40% according to the SEPSIS 3 definition. Metabolic alterations are responsible for lactic acidosis, and results in mitochondrial dysfunction. This study aims at evaluate the impact of exogenous metabolites on restoring mitochondrial function in septic shock patients with lactate acidosis. Mitochondrial metabolism (quantitative analysis, mitochondrial function) in intact Peripheral Blood Mononuclear Cells (PBMC) will be isolate and analyse from patients at the early phase of septic shock (admission), at day 2 and 4. Participant's medical history will be recorded: renal and liver metabolism, severity scores and outcomes and the need for supportive care in the intensive care unit (ICU) until 28 days after admission. Furthermore, the investigators will evaluate wether selected metabolites added to the cell culture medium may improve mitochondrial metabolism.
This study will involve blood draws to test for specific cytokines. The study goal is to gain a better understanding of the role of inflammatory response in the development of specific complications in burn and TENS patients.
Major deep burns (>20% body surface, involving deep skin layers) and associated severe inflammatory reaction and their complication are one of the biggest challenge of intensive care. Haemoadsorption therapy, including the CytoSorb treatment is a promising novel therapeutic approach, but only case-studies are available in the literature yet. Based on data from septic shock patient treatment the investigators hypothesize that CytoSorb is beneficial in early treatment of burns. The investigators aim to conduct a randomised-controlled study to assess the clinical effectiveness (based on score systems including MODS, SOFA, APACHE II, KDIGO, ABSI), 7 and 28 days survival, intensive care length of stay, length of mechanical ventilation, resuscitation fluid need and ino/vasopressor drug doses and the presence and severity of organ dysfunctions, particularly renal dysfunction. The investigatora plan to conduct basic research to elucidate the pathophysiological background of clinical effect, including the measurement of inflammatory and anti-inflammatory cytokines, presence and severity of oxidative stress (lipid peroxidation, protein oxidation, reduced/oxidised glutathion levels) and organ dysfunction markers (kidney injury molecule -1, neutrophil gelatinase-associated lipocalin, cystatin-C, uromodulin).
This study systematically observes in a pragmatic trail under real world conditions the association between strategies of therapy (maximal therapy, withhold, withdraw) and treatment success in three endpoint related initial risk groups (high, intermediate, low risk) regarding three endpoints (burden, mortality and supply costs).
The study aims to determine how historical cases of respiratory abnormalities are documented by clinicians in the electronic health records (EHR) of Memorial Hermann Healthcare System (MHHS) inpatient facilities. The knowledge gained from this study will support the design of modern data-driven surveillance approach to continuously collect, monitor and timely recognize postoperative respiratory abnormalities using electronic healthcare recorded data.
The use of extracorporeal blood purification therapies (EBPT) is becoming increasingly widespread worldwide in everyday clinical practice, particularly in the critical care setting. Nonetheless, most of the clinical trials aimed at exploring the effect of EBPT on patients' long-term outcomes have failed to demonstrate consistent results regarding 28 day- or hospital- mortality rates. The aim of this observational prospective registry is to evaluate if there is a cluster of critically ill patients that mostly benefits from extracorporeal blood purification therapies with different EBPTs.
The PRE-OP ENERGY Trial proposes to test the overarching hypothesis that a pre-surgery high energy diet will protect patients against organ damage during cardiac surgery with cardiopulmonary bypass.
The gut microbiota is critical to health and functions with a level of complexity comparable to that of an organ system. Dysbiosis, or alterations of this gut microbiota ecology, have been implicated in a number of disease states. Fecal microbiota transplantation (FMT), defined as infusion of feces from healthy donors to affected subjects, is a method to restore a balanced gut microbiota and has attracted great interest in recent years due to its efficacy and ease of use. FMT is now recommended as the most effective therapy for CDI not responding to standard therapies. Recent studies have suggested that dysbiosis is associated with a variety of disorders, and that FMT could be a useful treatment. Randomized controlled trial has been conducted in a number of disorders and shown positive results, including alcoholic hepatitis, Crohn's disease (CD), ulcerative colitis (UC), pouchitis, irritable bowel syndrome (IBS), hepatic encephalopathy and metabolic syndrome. Case series/reports and pilot studies has shown positive results in other disorders including Celiac disease, functional dyspepsia, constipation, metabolic syndrome such as diabetes mellitus, multidrug-resistant, hepatic encephalopathy, multiple sclerosis, pseudo-obstruction, carbapenem-resistant Enterobacteriaceae (CRE) or Vancomycin-resistant Enterococci (VRE) infection, radiation-induced toxicity, multiple organ dysfunction, dysbiotic bowel syndrome, MRSA enteritis, Pseudomembranous enteritis, idiopathic thrombocytopenic purpura (ITP), and atopy. Despite FMT appears to be relatively safe and efficacious in treating a wide range of disease, its safety and efficacy in a usual clinical setting is unknown. More data is required to confirm safety and efficacy of FMT. Therefore, the investigators aim to conduct a pilot study to investigate the efficacy and safety of FMT in a variety of dysbiosis-associated disorder.
Tramadol is opioid analgesic widely used to treat moderate to severe pain. It is metabolized by cytochrome CYP2D6 into two major metabolites: pharmacologically active metabolite O-desmethyltramadol (M1) and inactive N-desmethyltramadol (M2), respectively. Tramadol kinetics in a population of patients undergoing major abdominal surgical procedures, and in patients with a greater or lesser degree of organic failure, is still not well researched. The investigators will measure plasma concentrations of tramadol and its metabolites after usual tramadol doses in ICU patients after major abdominal surgery. Also analgesic affect and side effect of tramadol will be recorded.