View clinical trials related to Multiple Organ Failure.
Filter by:This phase II trial studies how well early metabolic resuscitation therapy works in reducing multi-organ dysfunction in patients with septic shock. Early metabolic resuscitation is made of large doses of glucose, protein, and essential metabolic molecules that may help lower the effects of septic shock on the body. Giving patients early metabolic resuscitation in combination with standard of care may work better in reducing multi-organ dysfunction syndrome in patients with septic shock compared to standard of care alone.
Patients admitted to the Intensive Care Unit after severe injury are prone to suffer from infectious complications and even sepsis. Despite tremendous efforts the etiology of this increased susceptibility to infectious pathogens is incompletely understood. Clinical signs and symptoms as well as current diagnostic clinical tests (WBC, CRP, cytokines, interleukines) lack sensitivity or specificity for adequate prediction of the development of infectious complications or sepsis. Neutrophil granulocytes, cells of the innate immune system, play an important role in the defence against invading bacterial pathogens and are crucial in preventing fulminant infections. For successful eradication of a bacterium neutrophils need to exert specific functions: chemotaxis, migration, phagocytosis, degranulation and production of radical oxygen species. Much research has focused on the effect of trauma on neutrophil's individual capacities to kill bacteria with conflicting interpretations as a result. For adequate determination of the neutrophil's capacity to eradicate bacteria from tissue of trauma patients we developed novel in-vitro assays in which neutrophils are tested for all of these functions combined. This assay allows us to identify dysfunctional neutrophils adequately. The main focus of this study is the determination of the functionality of aberrant neutrophils circulating in the peripheral blood of severly injured following trauma.
A study to assess effectiveness and safety of a drug FP-1201-lyo (Recombinant Human Interferon Beta-1a) in the Prevention of Multi-Organ Failure on patients after Open Surgery for a Ruptured Abdominal Aortic Aneurysm
Critical illness polyneuropathy and/or myopathy (CIPNM) is a severe complication of critical illness. Retrospective data suggest that early application of IgM-enriched intravenous immunoglobulin (IVIG) may prevent or mitigate CIPNM. Therefore, the primary objective was to assess the effect of early IgM-enriched IVIG versus placebo to mitigate CIPNM in a prospective setting.
It is clearly shown that patients in the Intensive care Unit (ICU) with severe sepsis or multi organic failure are very susceptible to develop neuromuscular complications. That can be attributed to a hyper catabolic state, general inflammation and immobilization. This can leads a significant muscle wasting, polyneuropathy and/or myopathy. These alterations have been defined with the term Intensive Care Acquired Weakness (ICUAW) and can leads important functional squeals and impaired quality of life for months, years and in some cases irreversibly. To overcome these complications, early activation by physiotherapy becomes an important tool. This type of treatment has been show to be feasible, safe and improves the functional capacity of patients. In addition to a reduction in the duration of ICU and hospital stay and improved quality of life for patients. The objective of this study is to demonstrate that the early and active physical activity in patients with severe sepsis can limit the loss of muscle mass and complications related to this type of damage. Procedures: Patients or relatives will be asked to participate in the study. If a positive response is done, patients will be randomized in an intervention or control group. A baseline evaluation will be performed during the first day of study admission. That includes a physical exploration, electrophysiological studies, skeletal muscle histological/biochemical evaluations and monitoring of blood biomarkers and others clinical outcomes will be registered. Intervention will be divided in a morning and afternoon times, patient will be positioned in chair or bed and mobilized by physiotherapist. As usual, all patients will be attaining manual mobilization for 20 minutes twice a day. Only for intervention group, additional cycle-ergometer exercise will be performed for 30 minutes at better performance achieved and tolerated for patient. All vitals parameters will be strictly controlled before, during and after intervention. The same baseline evaluation will be repeated after day 7 and clinical outcomes will be registered until ICU discharge.
Patient with liver failure waiting for liver transplantation are often hospitalized and commonly supported in an intensive care unit prior to surgery. These patients are sick, and in addition to the complications of a failing liver, other organs such as the kidneys often fail as well. As a consequence, these patients are at an increased risk for complications related to their kidney failure during their liver transplantation procedure. One potential method to diminish the risk of these complications is to provide dialysis support to these patients during their liver transplantation in the operating theater in the form of continuous renal replacement therapy (CRRT). While this is increasingly being performed and is theoretically appealing, there is very little information to support this practice. In addition, the use of CRRT during surgery is not entirely without risk. The investigators have performed two preliminary studies on the use of CRRT during liver transplantation and our data would strongly support the need to conduct further higher-quality studies to better evaluate its feasibility, safety and usefulness. Our proposed study is for a randomized trial comparing the use of CRRT during surgery with standard supportive care in sick patients with liver failure scheduled to receive a liver transplantation.
Trauma and major operation are associated with an excessive inflammation reaction due to tissue injury. This overwhelming immune response is considered to be a major risk factor in the pathogenesis of late inflammatory complications such as acute respiratory distress syndrome (ARDS), multiple organ dysfunction syndrome (MODS) and sepsis. The investigators hypothesize that administration of C1-esterase inhibitor (C1-INH) will attenuate the humane inflammatory response and, thereby, reduce the risk of inflammatory complications due to surgical interventions in trauma patients with a femur or pelvic fracture
In order to optimize anti-cytomegalovirus (CMV) treatment with ganciclovir (GCV), in patients with multi organ failure treated with continuous renal replacement therapy (RRT), more information about ganciclovir pharmacokinetics in this setting is needed. The primary objective is to describe the pharmacokinetics of ganciclovir in critically ill patients with acute renal failure treated with continuous renal replacement therapy, with a special emphasis on the extra-renal clearance and distribution volume. Secondary objectives are to investigate if any co-factors, such as serum creatinine, weight, general hydration status, rest function of the native kidneys, etc. can help to describe the pharmacokinetics of GCV in these patients on continuous RRT as well as the relative influence of filtrations and dialysis on GCV elimination during different modalities of the treatment.