View clinical trials related to Brain Trauma.
Filter by:The purpose of this study is to (1) assess how a competitive season of purposeful gameplay soccer heading in collegiate women soccer players is related to a blood biomarker for sports-related brain injury, plasma neurofilament light (NF-L), and (2) examine how a player's omega-3 status is related to plasma NF-L concentration changes during and after a competitive season of gameplay soccer heading.
The aim of the study is to look if Quick Sequential Organ Failure Assessment Score score in detecting a eary Sepsis is afflicted by neurosurgical disorders
ICAN is the first treatment to target hostile attributions after TBI, making it a novel anger/ aggression management approach in this population. This is a randomized waitlist control trial. The length of time in the trial is approximately 15 weeks and the intervention is 6 weeks long.
The present trial intends to assess whether Salovum®, an egg powder enriched for antisecretory factor given to patients with severe traumatic brain injury will improve outcome compared to a control group given placebo egg powder. 100 patients with GCS<9 will be enrolled and randomised to active or placebo treatment during maximum 5 days. Salovum® or placebo will be administered orally by nasogastric feeding tubes. Primary endpoint will be overall 30 data mortality. Secondary endpoints will be intracranial pressure and treatment intensity level.
The purpose of this study is to assess a new screening tool for sideline evaluation of concussion injuries in athletes. iDETECT is a new technology that combines several elements of recommended concussion screening tools into a single, portable device.
We hypothesize that newly developped NIRS sensor (EQUANOX Advanceā¢, 8004CA, NONIN Medical, USA)is able to detect ischemic events recorded by brain tissue oxygen probe (Licox, Integra Neurosciences, USA) and that values are correlated.
Visual field areas, which are not absolutely blind, are hypothesized to have some residual capacities that constitute their potential for vision restoration. Vision restoration can be achieved by varies methods including behavioral training and electrical brain stimulation such as transcranial direct current stimulation (tDCS) and repetitive transorbital alternating current stimulation (rtACS) which are able to influence the excitability and activity of cortical areas. It is hypothesized that transorbital alternating current stimulation (tACS) can improve the residual field of vision in patients with post-chiasmatic lesions.