View clinical trials related to Traumatic Brain Injury.
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To test whether measures of cortical excitability derived from motor cortex transcranial magnetic stimulation (TMS) in patients with traumatic brain injury reflect heightened excitability relative to healthy controls and whether such measures can be used to distinguish patients with post-traumatic epilepsy from patients with head trauma but no epilepsy
Following brain injury, complex interactions between the nervous system and other organs are frequently encountered. Systemic effects may be induced by dysregulation of the hypothalamic-pituitary-adrenal axis and the autonomic nervous system. This observational study will investigate the link between clinical, physiological and biochemical expressions of dysautonomic reactions and physiological stress, and their relations to sympathetic activation in traumatic brain injury patients treated in the neurointensive care unit.
Persons with an injury of the central nervous system clearly experience motor impairments. Among the most commonly described consequences are gait abnormalities and impaired balance. Although these are undeniably linked, they are also influenced by other factors. A recent systematic review (Xie, 2022) reports impaired balance, the presence of depression or anxiety, and decreased function of the lower limbs as important risk factors for fear of falling in persons after a stroke. Also for people with a spinal cord injury, the fear of falling has a major impact on their level of participation and quality of life (Sing, 2021). Preventing falls and reducing fear of falling is an important part of neurological rehabilitation programs as it is known that fear of falling has a negative impact on the patient's activity level. This in turn will lead to an increased risk of falling and a negative effect on neurological recovery due to insufficiently practicing their balance while walking. Since 2019 the rehabilitation center of UZ gent offers GRAIL training. This device aims to train walking balance and gait adaptability in a virtual environment. Patients who are admitted and/or undergoing ambulatory rehabilitation at UZ Gent are given the opportunity to complete a 5-week training schedule on the GRAIL. Before and after this training intervention period, the investigators evaluate the gait pattern of these patients. After the training period, the patients also complete a questionnaire about their experience while training on the GRAIL and often also indicate that they become more confident in their own balance when walking. That is why the researchers now also want to measure this. Research questions: 1. Do people with high confidence in their balance when walking differ from those with low confidence in their balance when walking? 2. Does GRAIL training have a different effect on confidence in balance than traditional rehabilitation? To answer the 2nd research question, patients who follow the traditional rehabilitation (control group) also receive the same tests as the people who follow GRAIL training. Randomization (prepared in advance via a computer program) determines who will follow the GRAIL training and who will follow the traditional rehabilitation.
A prospective cohort study (questionnaires), with an embedded case control study (neuropsychological assessments) in which the data is gathered within a timeframe of 3 years. A group of 700 patients and a group of 100 healthy volunteers will be participating.
This research study is being done to look at the safety and diagnostic benefit of conducting an TMS(transcranial magnetic stimulation)-EEG measured before and after a brief experimental stimulation session using investigational devices repetitive TMS or transcranial direct current stimulation (tDCS).
Despite almost universal usage of supplemental oxygen therapy in patients presenting in the emergency department with traumatic brain injury (TBI), optimal oxygen levels are unclear. The investigators propose a pilot multi-center randomized controlled trial to test the hypothesis that maintaining intermediate normal as opposed to high normal oxygen levels in patients presenting in the emergency department with TBI is feasible, and to obtain preliminary data on the efficacy of the two approaches to oxygen therapy. The aim is that the investigators produce pilot data, which could inform the design of potential subsequent larger clinical trials.
Thirty-six years old male with a history of TBI with compromised functionality of the right upper and lower limbs, spasticity, distributed balance, and difficulties performing independent gait has participated in the study. Berg balance scale, 6-minute walk test, modified Ashworth scale, and functional independence measure was used to assess balance, gait, spasticity, and functional intemperance, respectively.
One hundred participants with acquired brain injury (ABI) will be included in a randomized controlled trial, with one group playing a commercially available VR game and the control group doing activities in their everyday as cognitive training. The trial aims to investigate how VR can affect processing speed in the ABI population, and if these effects can transfer into everyday activities. The training will be performed in the participants homes, with assistance provided by the project group via phone or video conference. The training period will last five weeks. Participant's cognitive functions will be measured with questionnaires and neuropsychological tests at the start of the training period, at the end of training and sixteen weeks after the start of the intervention. In depth experiences with VR as a training method will be gathered through performing focus group interviews with some of the participants from the VR group, in addition to self-reported questionnaires from all the participants.
An Exploratory Interventional study to assess the effects of cranioplasty on brain network connectivity, neuropsychological and motor functioning in patients with severe acquired brain injury with pre-, post-cranioplasty and 6 months follow-up assessments.