View clinical trials related to Traumatic Brain Injury.
Filter by:The long term goal for the Traumatic Injury Research Program (TIRP) is testing of novel devices for the identification and longitudinal assessment of traumatic brain injury (TBI). DoD (United States Department of Defense) has now tasked TIRP with the test and evaluation of these devices to assess reliability and validity. The objective of this effort is to test the reliability of the NKI, Inc, (NeuroKinetics, Inc) i-PAS device using a test/re-test protocol with healthy controls. The research design is test/re-test, with three assessments obtained on three separate visits. This will allow the assessment of reliability of both the device and the measure(s) that are computed from the input signals. Participants will be Healthy Controls (HC) as defined in the inclusion exclusion section. In this initial study, investigators will be administering standardized self-report instruments (Standard Form 36 - SF36, and Symptom Checklist 90r, or SCL-90r), standard three-lead EKG. In addition they will administer the NKI i-PAS specific protocol as delineated by NKI.
The purpose of this study is to examine the effects of exercise on recovery after traumatic brain injury. Investigators will determine if exercise enhances rehabilitation by increasing substances (proteins) that can facilitate recovery.
Investigators will determine the long-lasting effects of post-acute rehabilitation after traumatic brain injury and stroke. Investigators will also evaluate if the beneficial effects of rehabilitation continue after discharge from a rehabilitative program.
Traumatic Brain Injury (TBI) is a serious public health problem due to its high mortality and morbidity rates, mainly affecting young adult males. Aggression to the prefrontal cortex, caused by an external physical force, responsible for anatomical injury and/or functional impairment, causes cognitive deficits with important consequences for the individual affected by the trauma and their caregivers. Therefore, rehabilitation is of utmost importance. The increase in pre-frontal cortical activation through training, activity-dependent stimulation and neuroplasticity, especially in the dorsolateral prefrontal cortex (DLPFC) is related to better performance in functional memory. In this context, Transcranial Direct Current Stimulation (tDCS), intended to drive neuroplastic changes in the brain, has been widely used to bring benefits to the cognitive function of individuals affected by various neurological conditions, including TBI by promoting neuroplasticity for critically involved cortical areas in the performance of tasks, culminating in cognitive benefits. In addition, studies have shown greater benefits when the technique is combined with cognitive training. Therefore, the objective of this parallel, randomized, double-blind, placebo-controlled clinical trial is to investigate the effect of tDCS applied on the dorsolateral prefrontal cortex and virtual reality cognitive training alone or in association with tDCS on cognitive function of individuals with severe chronic TBI.
This research aims to extend the application of spreading depolarization monitoring to non-surgical TBI patients, using intraparenchymal electrode arrays and scalp electroencephalography to detect depolarizations and develop less invasive monitoring methods.
The current project will examine the impact of an emotional processing intervention on emotional processing abilities in a sample of 50 persons with moderate to severe TBI. Outcome will be assessed across 3 domains. We will document changes resulting from treatment: (1) in emotional processing tasks (2) in other areas of function including QOL, social functioning, mood and cognition that are also likely to be impacted (3) in brain structure and function. The examination of efficacy in the above three areas will further our knowledge of emotional processing deficits in TBI and more importantly, identify an effective means of treating such deficits.
The goal of this study is to determine whether the addition of aEEG to cEEG in clinical practice does in fact help PICU physicians detect subclinical seizures in this population.
To observe the effect of PEEP on CVP among patients with different respiratory compliance
Preliminary evaluation of electrodes placed on the brain for recording brain activity and novel algorithms to determine cortical spreading depolarization foci of origination following severe traumatic brain injury requiring neurosurgical intervention.
The purpose of this two phase study is to evaluate comprehension by people with acquired brain injury. The phase 1 portion of the study will examine comprehension of narrative paragraphs under 3 conditions: (a) written text only, (b) auditory output only (i.e., synthetic speech - David voice) or combined written text and auditory output. The phase 2 portion of the study is to evaluate comprehension of sentences and paragraphs produced with computer generated (synthesized) speech and digitized natural speech after multiple exposures.