View clinical trials related to Trauma Injury.
Filter by:The Prehospital Airway Control Trial (PACT) is a proposed 5 year, open label, multi-center, stepped-wedge randomized trial comparing airway management strategies of prehospital trauma patients. The initial airway attempt will be randomized to either usual care (control) or a supraglottic airway management approach (intervention). The primary outcome will be 24 hour survival, with secondary outcomes to include survival to hospital discharge, expected clinical adverse events, airway management performance, ICU length of stay, ventilator days, incidence of ARDS, and incidence of ventilator associated pneumonia. Subjects will be enrolled across approximately 17 prehospital agencies at select LITES Network sites and will enroll a total of 2,009 subjects.
This will be a pilot study utilizing Virtual Reality Analgesia (VRA) as a first line nonpharmacologic analgesic intervention on the Acute Rehabilitation Unit. In order to assess the efficacy of the intervention with a set of outcome measures will be defined: - Pain will be measured using the VAS for all subjects pre-, during and post-intervention via self-report. - Number of opioids/oral pain medication consumed will be analyzed - Patient anxiety will be measured on the Short ( State-Trait Anxiety Index) STAI anxiety scale pre- and post-intervention. - Heart rate and blood pressure will also be measured pre and post intervention.
Management of traumatic rib fractures continues to be a challenge for trauma surgeons. Currently, many analgesic options are available to patients suffering from rib fractures. Formulations currently used for conventional intercostal nerve blocks (CINB) are relatively safe, do not require additional equipment or specialized anesthesia personnel, do not require catheter repositioning, and provide improved analgesia immediately over the aforementioned systemic therapies. A goal of these authors to introduce an additional safe option for extended local analgesia in the setting of multiple rib fractures given the inconclusive evidence supporting or refuting the current standard of care
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.