View clinical trials related to TBI (Traumatic Brain Injury).
Filter by:The overarching goal of this pilot study is to assess the feasibility and safety of transcutaneous auricular neurostimulation (tan) in ICU patients with TBi and to determine the effect of tan on serum markers of inflammation. exploratory analyses will examine effects on such physiological parameters as blood pressure, heart rate, and intracranial pressure (iCP), as well as measures of neurological function.
Traumatic brain injury (TBI) is a leading cause of global disease and directly affects over 1.5 million Canadians, with 165 000 TBIs occurring yearly in Canada. Despite the burden of TBIs, there are limited treatment options available and current treatments generally focus on supportive care. The aim of TBI treatment is reduce inflammation and damage occurring after the TBI (secondary injury). Beta- blockers (BBs) are medications commonly used to block the actions of endogenous catecholamines- hormones that are thought to contribute to secondary injury within brain tissue. This reduces metabolic demand in the vulnerable, injured brain. BBs have been studied in several retrospective trials and one single-center, non- blinded randomized controlled study. These results point towards a benefit to the use of BBs in TBI but need to be confirmed in a rigorous manner before they are widely adopted. The current study aims to assess the feasibility of a single centre randomized controlled trial of BBs versus placebo to treat moderate to severe TBI. This feasibility trial will inform the planning of a large multi-center study powered to detect a difference in cognitive outcomes and mortality. It also will allow the investigators to gather biologic samples for measuring serum catecholamines and inflammatory mediators to better understand the basic science mechanisms of BBs in this patient population; and to assess the feasibility of using the Cambridge Battery to assess cognitive outcomes of trial participants.
Concussions (also known as mild traumatic brain injury) are common in young children. In some children, they can lead to short- and long-term difficulties. However, our knowledge of the exact consequences of injuries on young children's brains and behavior is limited. These consequences may be different in children under 6, as their brains are fragile and undergoing significant developmental changes. The aim of this study is to determine the extent to which a concussion sustained before the age of 6 years is associated with changes in young children's brain structure, function and behaviours, using a brain imaging. In this study, the results of a group of 30 children with a concussion will be compared to those of 30 children of the same age with an orthopaedic injury to the upper or lower limbs.
In TBI, there is a strong correlation between increased ICP and bad outcome. So, appropriate monitoring can be the gold standard in management of TBI. ICP can be measured by invasive and noninvasive methds. One of these noninvasive methods is bedside measurement of optic nerve sheath diameter (ONSD) by ocular ultrasonography
This is a preliminary, prospective interventional study to investigate the feasibility of using transcutaneous alternating current stimulation (TACS) and transcutaneous noninvasive vagal nerve stimulation (tnVNS) after a traumatic brain injury (TBI) to improve cognitive function and decision-making.
Prospective observational study on patients undergoing decompressive craniotomy
Change and effect of cerebral autoregulation during targeted temperature management in neurocritical patients
This study is a prospective multicenter randomized controlled trial from Asian countries to compare the effect and safety of right median nerve stimulation versus traditional treatment for comatose patients at the early stage following traumatic brain injury.