View clinical trials related to Trauma, Nervous System.
Filter by:The goal of the project is to describe novel factors affecting outcome after elbow fracture surgery with an in-depth evaluation of the role played by neuro inflammation from concomitant peripheral nerve injury or head injury in elbow fracture outcomes. Among all upper limb fractures, elbow trauma is the most frequently associated with a severe impact on patient function and quality of life. One of the main reasons for poor outcomes is the complexity of the elbow joint, which involves three bones and two planes of motion, essential to position the hand in space. The flexion extension axis is crucial for eating and hygiene, while forearm pro-supination is mandatory for most professions, from office work to manual labour.
There is currently no prospective study analyzing the effect of tracheostomy with bedside simultaneous gastrostomy versus tracheostomy with delayed gastrostomy placement (TSG versus TDG) on the outcomes of neurocritically-ill patients. The investigators will study TSG via concomitant PDT and PUG procedures, while TDG will occur per usual care. This study is a prospective randomized open-label blinded endpoint study to assess the effect of tracheostomy with bedside simultaneous gastrostomy (TSG) versus the usual care of tracheostomy with delayed gastrostomy (TDG) placement on outcomes of neurocritically-ill patients.
Incomplete spinal cord injuries (SCI) are the most frequent neurologic category, comprising 66.7% of all SCI cases. People with incomplete SCI may retain some ability to move the legs and therefore the capacity to regain walking. Studies that show functional improvement in locomotion via electrical stimulation of lumbosacral circuits suggest that the underlying mechanisms are neuromodulation of lumbosacral spinal cord automaticity and sensory feedback. Both epidural and transcutaneous spinal stimulation are demonstrating exciting potential to improve limb function for people after chronic SCI. Available treatment options for SCI are less than satisfactory and most often do not achieve full restoration of function. Recent experimental results suggest an exciting new approach of using electrical spinal stimulation to enable users to regain control of their weak or paralyzed muscles. Using surgically-implanted electrodes, epidural stimulation results in remarkable improvements of lower extremity function as well as autonomic functions such as bladder function and sexual function. In addition to epidural stimulation, over only the last few years a novel strategy of skin surface electrical spinal stimulation has also demonstrated exciting potential for improving walking function. Using a high-frequency stimulation pulse, current can pass through the skin without discomfort and activate the spinal cord; this results in patterned stepping movements for people without SCI and improved lower extremity function following SCI. This study will directly compare skin-surface transcutaneous stimulation with implanted epidural stimulation for improving lower extremity function.
A prospective case series of 200 patients who have been treated with Bone Marrow Concentrate using anterior approach through posterior oropharynx for treating alar, accessory, and transverse injuries for patients with craniocervical junction instability.
Blood lactate levels will be measured using a simple handheld device at time of return of spontaneous circulation (ROSC) following out of hospital cardiac arrest (OHCA). Patient outcomes tracked will include rate of survival to hospital discharge, rate of 6 month survival, and neurological status. The hypothesis for this pre-hospital study is to confirm the previous in-hospital findings that very high blood lactate after ROSC is associated with very high mortality and severe neurological impairment.
The objective of this work is to compare standard intubation with video laryngoscope (Glide scope Ranger ) in French pre hospital multicentric study.