View clinical trials related to Multiple Trauma.
Filter by:Compartment syndrome (CS) is a serious complication of soft-tissue injuries in patients with fractures of the musculoskeletal apparatus. CS is defined as a condition, during which an increased tissue pressure inside an enclosed compartment damages the microcirculation and neuromuscular function of the tissue, and results in ischemization, with a damage of nerve-muscle structures, which lead either to extensive flexion contractures, or myonecroses, with the need to perform an early amputation of the affected limb. In traumatology, compartment syndrome is most frequently observed in a patient with crural fractures, closed as well as open fractures, or in cases of crus laceration.
It is unknown whether early modulation of inflammatory cytokines is associated with improved patient outcomes, reduced narcotic requirements in orthopaedic patient population, and improved patient subjective pain after hospital discharge. Preliminary animal and clinical studies have shown correlation between elevated blood cytokine concentrations during the acute phase of trauma and the development of post-traumatic complications. Early administration of nonsteroidal anti-inflammatory drug (NSAID) in animals significantly reduced inflammatory profiles, improved pulmonary edema, and enhanced arteriole vasoconstriction in response to hemorrhage. The ability to modify post-traumatic physiologic response via short-term administration of a non-steroidal anti-inflammatory drug (NSAID) may lead to improved patient outcome. In addition, given the current landscape for opioid epidemic in the United States, alternative non-opioid pain management during acute trauma has the potential to reduce opioid consumption and represents a pivotal component of multimodal analgesia strategy. By doing this study, the investigators hope to learn how to provide the best care for all patients in the state of Kentucky. Patient participation in this research will last about 1 year.
Coagulation factor XIII (FXIII), a plasma transglutaminase, is known as the final enzyme of the coagulation cascade, responsible for a cross-linking of fibrin to strengthen blood clot. It also minimizes fibrin degradation by its cross-linking it with alfa2-antiplasmin molecules. It has been found that similar to plasma fibrinogen level, FXIII activity can be reduced in the early phase of severe trauma. Therefore, its immediate substitution is of potential therapeutic interest in trauma-induced coagulopathy. However, unlike plasma fibrinogen level evaluation, measurement of the FXIII activity is not routinely available. Therefore, targeted substitution of FXIII is practically impossible. The plasma fibrinogen level is routinely measured in severe trauma patients. Based on pathophysiologic assumptions and a limited number of published data we hypothesize that the FXIII activity correlates with fibrinogen level. In such case, indirect FXIII activity prediction by fibrinogen level measurement would be a convenient approach to enable FXIII targeted substitution. Therefore we decided to perform a prospective observational clinical trial to determine whether the low plasma fibrinogen level in severe trauma correlates with decreased FXIII activity.
The serious injury causes a complex acute response of the organism to the injury in affected patients, which is manifested in the neuroendocrine, immune and metabolic areas, with an often persisting catabolic state, with a subsequent negative impact upon bone metabolism. By a timely administration of the D3 vitamin and an anabolic, we attempt to achieve an earlier activation of the anabolic phase of patient resuscitation after serious trauma regarding the monitoring of laboratory values of bone metabolism.
The Swiss Conference of Cantonal Health Directors has transferred the planning of highly specialized medicine to a specialized body under the direction of the Swiss Academy of Sciences. This specialist body has defined the treatment of critically ill as part of highly specialized medicine and founded the Swiss Trauma Registry at 12 hospitals in Switzerland. The registry is designed to provide a consistent and standardized approach and treatment outcomes in the short and long term quality control and as a basis for planning highly specialized medicine.
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.
In this study, we will explore the feasibility of a randomized controlled trial that will compare high protein dose from ICU day 6 to 14 with moderate protein intake.
Trauma is the leading cause of death in young people. Trauma-induced coagulopathy (TIC) encompasses several aspects of traumatic bleeding. Monitoring of coagulopathy comprises use of Point-of-Care (POC) methods, such as thromboelastography (TEG) or Thromboelastometry (ROTEM) and conventional laboratory assays (platelet count, fibrinogen level, and PT or INR). POC tests are thought to have a better performance on mortality and bleeding control than conventional tests. The aim of this study is to compare POC and conventional assays with plasma consumption as a primary outcome and 28 days mortality as a secondary one.
Severe hypoxemia following trauma may happen in many circumstances (aspiration, ventilation-associated pneumonia, lung contusion...), most of which are not exclusively associated with a direct injury to the lungs. Severe trauma and associated musculoskeletal injuries result in the acute release of Damage-Associated Molecular Patterns (DAMPs) in plasma, many of which are made of nucleic acids. DAMPs then bind leukocytes and trigger NETosis (Neutrophil Extracellular Traps), the release of nuclear material coated with proteolytic enzymes, which ultimately promotes remote lung injury and acute respiratory distress syndrome (ARDS). Considering that many DAMPs and all NETs are made of nucleic acids, we hypothesize that dornase alfa, a commercially available recombinant desoxyribonuclease (DNAse) could reduce DAMPs and NETs-induced lung injury in severe trauma patients under mechanical ventilation in the intensive care unit (ICU). The primary objective is to demonstrate a reduction in the incidence of moderate to severe ARDS in severe trauma patients during the first seven ICU days from 45% to 30% by providing aerosolized dornase alfa once during the first two consecutive ICU days and compared to equivalent provision of placebo (NaCl 0,9%). The secondary objectives are to demonstrate, by using aerosolized dornase alfa compared to placebo: - an improvement in static lung compliance - a reduction in mechanical ventilation duration / an increase in ventilation-free ICU days - a reduction in the length of ICU stay - a reduction in the hospital length of stay - a reduction in multi-organ failure - a reduction in ventilator-associated pneumonia (VAP) - a reduction in mortality at day 28
To evaluate the effects of trauma treatment team establishment on the treatment of patients with severe trauma.