View clinical trials related to Trauma Injury.
Filter by:Trauma is the leading cause of death for individuals ages 1-45 years old, within this cohort, and uncontrolled hemorrhage is the leading cause of preventable death.1,2 Tourniquets have been shown to be effective in dramatically decreasing death from uncontrolled hemorrhage on the battlefield and there is level 4 evidence that EMS application of tourniquets in the civilian sector is effective though not to the same degree as in the military.3,4 Multiple national groups have advocated that to further decrease preventable deaths from hemorrhage, laypersons should apply tourniquets before the arrival of professional first responders. To this aim, the "Stop the Bleed" campaign has trained over 100,000 individuals in the US in hemorrhage control techniques and tourniquet use with the Bleeding Control Basic (B-Con) course.5 The "Stop the Bleed" campaign informs course participants all commercial tourniquets are equivalent, and improvised tourniquets should be applied if a commercial tourniquet is not available.6 The investigators are evaluating the ability of the B-Con course participants to apply three different types of commercial tourniquets, the Rapid Application tourniquet (RAT), the Stretch-Wrap-And-Tuck tourniquet (SWAT-T), and the Sof Tourniquet (Sof-T) as well as participants ability to fashion an improvised tourniquet. The investigators hypothesize B-Con in its current form does not enable course participants to apply other commercial tourniquets beyond the specific one taught, the CAT tourniquet, and does not teach how to apply an improvised tourniquet.
In pre-hospital settings, the administration of analgesics is often delayed because of difficult patient access (incarceration), difficulty finding a venous pathway or patient refusal. An optimization of the management of pain in urgency is therefore still necessary. A side from nitrousoxide of which usage remains restrictive, methoxyflurane (Penthrox®) is the only volatile analgesic currently available for pre-hospital use. The purpose of this study is to answer the question: Does the use of the inhaled route with Penthrox add value to the treatment of acute traumatic pain in the pre-hospital stage?
The California Prehospital Antifibrinolytic Therapy (Cal-PAT) study seeks to evaluate the safety and efficacy of Tranexamic Acid (TXA) use in the civilian prehospital and in hospital setting in cases of traumatic hemorrhagic shock.
The primary objective of this clinical trial is to evaluate the safety of autologous engineered corpora cavernosa + albuginea constructs for treatment of complex penile deformities. Autologous endothelial and smooth muscle cells obtained from enrolled subjects' corpora cavernosa biopsy sample, will be culture expanded in vitro and used to seed decellularized corpora cavernosa + albuginea obtained from cadaveric-donors to create autologous bioengineered corpora cavernosa/albuginea constructs for repair of damaged penile tissues.
New trauma alert criteria has been introduced in Sweden, and our aim in this study is to evaluate the outcome of the old and new trauma alert criteria in a cohort of 1.300.000 inhabitants at six hospitals regarding over- and undertriage and number of alerts initiated. The Swedish trauma registry is used to identify eligible patients.
While a number of factors are known to be associated with the development of trauma induced coagulopathy (TIC), inflammation, and multi-organ failure, we currently cannot predict which patients are at risk for developing these life threatening conditions with any certainty. In this prospective observational study, we will investigate the many factors that contribute to the development of trauma induced coagulopathy, post injury inflammation and the development of organ dysfunction in order to develop a multi scale computational algorithm of clinical prediction. Using a convenience sample technique, demographic data, physiologic data, blood samples and clinical variables will be collected over 5 days following traumatic injury. A computational model will be used to predict the development of TIC and multi-organ failure.
Traumatic injury is a leading cause of morbidity and mortality in young adults, and remains a substantial economic and health care burden. Despite decades of promising preclinical and clinical investigations in trauma, investigators understanding of these entities is still incomplete, and few therapies have shown success. During severe trauma, bone marrow granulocyte stores are rapidly released into the peripheral circulation. This release subsequently induces the expansion and repopulation of empty or evacuated space by hematopoietic stem cells (HSCs). Although the patient experiences an early loss of bone marrow myeloid-derived cells, stem cell expansion is largely skewed towards the repopulation of the myeloid lineage/compartment. The hypothesis is that this 'emergency myelopoiesis' is critical for the survival of the severely traumatized and further, failure of the emergency myelopoietic response is associated with global immunosuppression and susceptibility to secondary infection. Also, identifying the release of myeloid derived suppressor cells (MDSCs) in the circulation of human severe trauma subjects. This process is driven by HSCs in the bone marrow of trauma subjects. Additionally, MDSCs may have a profound effect on the nutritional status of the host. The appearance of these MDSCs after trauma is associated with a loss of muscle tissue in these subjects. This muscle loss and possible increased catabolism have huge effects on long term outcomes for these subjects. It is the investigator's goal to understand the differences that occur in these in HSCs and muscle cells as opposed to non-injured and non-infected controls. This work will lead to a better understanding of the myelopoietic and catabolic response following trauma.
This study is utilizing ultrasound measurement to measure neuromuscular disease status in adult patients. The hypothesis is the by quantifying ultrasound data, it is possible that ultrasound can be utilized as a tool to determine if a disease is responding to therapy or progressing.