View clinical trials related to Major Trauma.
Filter by:In-hospital mortality of patients admitted in the intensive care unit (ICU) for circulatory shock remains high (between 20 and 40%). Currently, there are no markers that allow us to classify patients with circulatory shock at higher risk of early and late bad outcomes, or who may better respond to a specific intervention. To understand the contribution of biological heterogeneity to circulatory shock independently from its etiology, the ShockCO-OP Research Program aims to use clustering approaches to re-analyze existing clinical and molecular data from several large European and North American prospective cohorts and clinical trials. This will enable an improvement in risk prediction and a better patient selection in future clinical trials to assess a personalized therapy (i.e., prospective enrollment based on a biological/molecular signature).
To assess and treat The calcium level abnormalities in major trauma pre and post receiving blood transfusions .
Severe trauma is one of the leading causes of morbidity, mortality, and disability worldwide. Currently, it is the primary cause of death among individuals under 45 years of age. This disease, considered a "silent pandemic," exhibits heterogeneous physiopathology and unequal geographic distribution in terms of the type of injuries. The prognosis of subjects who have suffered severe trauma is uncertain, especially in patients with traumatic brain injury. The epidemiology of severe trauma has undergone changes in recent years due to the global aging of society, resulting in different populations with older ages and more associated comorbidities. These factors are frequently linked to the use of chronic treatments such as antiplatelet agents or anticoagulants, which could worsen traumatic hemorrhage-the leading preventable cause of death following severe trauma. Despite efforts for primary prevention, such as road safety campaigns and occupational risk prevention, the annual incidence of severe trauma cases worldwide remains high. Enhancing the management of trauma patients would significantly influence the final clinical outcomes. Given the aforementioned, it is of vital importance to understand the local epidemiology of severe trauma for the development of clinical research. This constitutes an effective tool to investigate changes in clinical practices, improve prevention strategies, and determine the global burden of the disease. The hypothesis of the IcuTrauma Project is to create a territorial Registry of adults with severe trauma admitted to the ICU to understand the local epidemiology in Tarragona (Spain). This initiative would facilitate new lines of clinical research aimed at improving outcomes and the quality of care for trauma patients.
Accident-related deaths is the 7th leading cause of death in Taiwan, and most of them is due to trauma from falls and traffic accident. Among trauma patients, the common cause of death is from hemorrhagic shock. Thus, real-time and accurate blood pressure monitoring is important for trauma patients. Incorrect blood pressure monitoring can lead to adverse events like traumatic cardiac arrest and shock and can also delay the time for intervention (fluid resuscitation, blood transfusion and operation). The current practice of blood pressure monitoring in trauma patient is by non-invasive blood pressure monitoring, which may be incorrect and not timely. Patient's body type and peripheral perfusion can both influence the result of non-invasive blood pressure monitoring. With continuous and correct blood pressure monitoring, the resuscitation team can give adequate and timely treatment. In some trauma centers, arterial line insertion in trauma patients is a daily practice, while the evidence is inadequate and the potential benefit in unknown. The main purpose of this study is to investigate the application of arterial line insertion in trauma patients. The study design is a prospective before-after study to exam whether arterial line insertion in trauma patients can reduce adverse event rate like hypovolemic shock and improve patient's outcomes.
The goal of this study is to assess the feasibility of recruitment, and barriers to delivery of an enhanced rehabilitation service, in patients surviving major trauma. The main questions it aims to answer are: are the investigators able to recruit patients to a research study are the investigators able to retain patients in the research study are the investigators able to identify appropriate primary outcome measures are the investigators able to identify barriers to future large-scale definitive trial or service delivery Participants will would be offered at least two sessions of the Enhanced Rehabilitation Programme (ERP), each lasting 60-120 minutes per week, delivered in the Manchester Institute of Health and Performance (MIHP). Participants not willing to travel to the MIHP, or declining to engage in the ERP, will be asked to join the Standard Care (SC) group. This group will provide questionnaire data and clinical outcome measure collection with their usual place of therapy. Researchers will compare the ERP group and the SC groups to assess any additional benefits to the ERP.
Trauma has been an important global public health issue. Yet it is the sixth cause of death in Taiwan, trauma brings great negative impact to national productivity since it presents specifically as the leading cause of death for the population aged below 40 years. According to the national databank from Formosa Association for the Surgery of Trauma, mortality rate in critically traumatic patients with injury severity score (ISS) ≥ 25 is as high as 23%. Vitamin D, a pleiotropic hormone, regulates directly functions of most organs and immune system. It has been proven that vitamin D insufficiency or deficiency would deteriorate survival of critically ill patients, while supplementation of high-dose vitamin D ameliorates the clinical outcomes. This study investigates whether multiple high doses of vitamin D supplementation in one week can decrease the mortality and morbidity in critically traumatic patients.
Major trauma is a significant cause for morbidity and mortality in the world. After traumatic injury, the damage tissue could induce systemic inflammatory response (SIRS) and activate autonomic nervous system in response to stress, followed by compensatory anti-inflammatory response (CARS). Imbalance of SIRS and CARS may lead to organ failures, sepsis and death.
The EPO-TRAUMA study is a prospective, multi-centre, double-blind, phase III, randomised controlled trial evaluating the efficacy of epoetin alfa compared to placebo in reducing mortality and severe disability at six months in critically ill trauma patients. 2500 mechanically ventilated ICU patients admitted with a primary trauma diagnosis presenting to the ICU will be recruited into the study from participating study centres in Australia, New Zealand, Europe, and Saudi Arabia.
The multi-disciplinary team involved in the care of major trauma patients with open fractures has developed two novel patient information videos. They include practical advice from staff about the recovery process, images of the wound throughout the healing process and ways to cope with the range of emotional responses that patients report following an open fracture. The experiences of previous patients are also included. The aim of this project is to evaluate the impact of viewing these videos on patients' ability to follow treatment recommendations made by the team, as well as their psychological and social functioning, as measured by standardised questionnaire responses. Additionally, the patient's experience of viewing the videos, in terms of how relevant and useful they found them, will be evaluated.
The occurrence of sepsis in trauma patients is a very serious complication. Identifying trauma patients at high risk of sepsis was not revealed in the latest surviving sepsis campaign in 2016. Several biomarkers have been proposed for early prediction of sepsis in trauma patients as leukocyte anti sedimentation rate (LAR) and the proinflammatory cytokine monocyte chemo attractant protein-1 (MCP-1). Sepsis prophylaxis before occurrence of multi-organ failure still represents a major challenge. Vitamin D and probiotics have antimicrobial, anti-inflammatory and gut microbiota immune modulatory properties.Little is known about the effect of vitamin D and probiotics co-supplementation on the inflammatory response in trauma patients at high risk of sepsis. Another promising strategy is the use of vitamin C in addition to thiamine. Trauma is associated with increased oxidative stress and vitamin C deficiency. High dose vitamin C is required to restore oxidant-antioxidant balance. Vitamin C and thiamine have shown promising results in treatment of sepsis. Vitamin C possesses anti-inflammatory, endothelial protective and anti-microbial effects. Thiamine is the precursor of thiamine pyrophosphate (TPP), a key enzyme in Krebs cycle.