View clinical trials related to Orthopaedic Trauma.
Filter by:The purpose of this single-arm trial is to determine the feasibility of emotional awareness and expression therapy (EAET) for individuals with persistent pain following orthopedic trauma. As part of this study, participants will be asked to attend weekly EAET treatment sessions and complete assessments (including pre-treatment, post-treatment, and follow-up) consisting of questionnaires and sensory testing procedures.
This study evaluates an accelerated schedule of theta-burst stimulation using a transcranial magnetic stimulation device for orthopaedic trauma patients. In this open label study, all participants will receive accelerated theta-burst stimulation. This study will examine whether symptoms of psychiatric distress and opioid use in orthopaedic trauma patients can be mitigated with rTMS to improve post-injury recovery.
The STREAM Study is a prospective longitudinal observational outcomes study that will examine the reliability, validity and responsiveness of the PROMIS tools for clinical research following orthopaedic trauma.
This project focuses on the further development and clinical testing of an image-guided surgical system. The system will help surgeons perform procedures that involve inserting a screw, guide pin, drill bit, or other straight object into bone-for example, inserting screws in a broken hip bone. These surgeries are currently done with the help of a mobile x-ray device called a C-arm, which provides the surgeon with x-ray images during the procedure. C-arms have some disadvantages, including image distortion, radiation exposure, and the need for time-consuming adjustments of the C-arm during the surgery. The new method would deal with these shortcomings with a computer-based system that adds to the existing C-arm system. It would provide the surgeon with a real-time view of the insertion process, and could improve the accuracy and speed of certain surgical procedures. Disadvantages associated with C-arms include image distortion, radiation exposure, and time consuming reconfiguration of the C-arm during the insertion process. The proposed system would address these shortcomings with a computer-based system that augments the existing C-arm system.