View clinical trials related to Brain Injuries, Traumatic.
Filter by:Despite the decline in fatal traumatic brain injury (TBI) incidence in recent years, TBI morbidity remains a public health challenge and is the leading cause of disability in the United States. Detailed knowledge of the metabolic alterations following TBI will provide a significant advancement to our understanding of the hypometabolic response to TBI, which is key information for the future development and testing of novel therapeutic interventions that by-pass or compensate for the metabolic dysfunction. The goal of this study is to determine the clinical utility of in vivo 13C MRS to identify specific metabolic alterations following TBI. We hypothesize that following TBI, metabolic pathways are altered causing an incomplete oxidative of glucose in neurons and astrocytes resulting in a decrease in cerebral metabolism.
St. Michael's Hospital (SMH) provides service to individuals with some of the most severe brain injuries and intensive care needs in Canada. These patients often require prolonged intensive care admissions, lengthy hospital stays, involvement of many health professionals, and long-term support for ongoing care requirements. Many hospitals face resource limitations, specifically involving the health disciplines and their ability to provide frequent intervention. It has been proposed that multisensory stimulation (i.e. exposing the patient to various sights, sounds, smells, etc.) in the early stages of brain injury recovery may result in improved responsiveness/cognitive function. Previous research has indicated a potential benefit for early multisensory stimulation intervention for patients with severe brain injury. However there is still not enough conclusive evidence to confirm whether the intervention is truly effective. The investigators are proposing a pilot randomized controlled study (placebo-controlled, double-blinded) to determine the feasibility and examine the effectiveness of early multisensory stimulation with patients following severe brain injury who remain in a coma, vegetative state, or minimally conscious state. Eligible patients will be randomized to a control group (standard care + family/caregiver education) or an intervention group (standard care + family/caregiver education + early sensory intervention). Data regarding number of patients enrolled, amount of intervention completed, percentage of outcome data collected, patient's level of responsiveness and cognitive function will be collected before and after the intervention period, using several outcome measures. The investigators hope to determine the feasibility of conducting this type of study within this clinical setting and the effectiveness of multisensory stimulation with this patient population.
The investigators will conduct an observational crossover study. The investigators aim to recruit 50 participants with severe Traumatic Brain Injury (TBI) requiring intracranial pressure (ICP) monitoring during their stay at the Neuro Trauma ICU at the R Adams Cowley Shock Trauma Center. Overall, participants will be monitored, on average, for approximately 6-8 hours during the study period. The investigators do not anticipate the need for prolonged monitoring during the duration of their hospital stay or post hospital period.
Background: - Traumatic brain injury (TBI) often causes problems with moving and balance, and thinking and emotions. Exercise can improve these things in people with other brain damage. Researchers want to look at the effect of exercise on these things in people with TBI. Objectives: - To study how head injuries affect the brain. To study if exercise can help some symptoms in people with TBI. These include problems thinking, balancing, and moving, and depression or anxiety. Eligibility: - People age between 18 and 79 - Had a non-penetrating TBI at least 12 months ago - Are physically inactive, but can stand and walk without help Design: - Participants will be screened with medical history, physical exam, and blood and urine tests. They may have a balance test. - Participants will be assigned to a high-intensity or a lower-intensity exercise program. - The study is 6 months long. There will be 3 months with exercise on an elliptical machine and 3 months without exercise. - Participants will exercise for 30 minutes on an elliptical machine, 3 days per week for 3 months. - Participants will also have 3 outpatient testing visits lasting approximately 8 hours, once every 3 months. This visit will include: - Blood tests - Tests for memory, attention, and thinking - Tests of walking and balance - Questionnaires - An MRI: they will lie in a machine that takes pictures of their brain, while breathing regular air and air with more carbon dioxide - Test of physical fitness
In France, an estimated 860 000 patients are affected by Alzheimer Disease (AD) which represents, as in other developed countries, a major public health issue. In many cases, AD diagnosis is uncertain and its clinical evolution unpredictable. The exactitude of the diagnosis is however particularly important in the perspective of the validation and use of new therapeutic strategies in AD. Detection of cerebrospinal fluid (CSF) diagnosis biomarkers fell short in the detection, of atypical/mixed cases, of some differential diagnosis, and in differentiating rapid or slow clinical evolutions. Hence, CSF analysis gives a unique opportunity to detect and validate biomarkers in many neurological disorders. Nevertheless, in medical practice, CSF biological analysis is currently limited to a small number of analytes.Quantitative and targeted mass spectrometry, especially operated in the Multiple reaction monitoring mode (MRM), represents an alternative to immunodetection and could be used to detect specific biomarkers in complex matrices such as plasma by specifically discriminating the proteotypic peptides corresponding to each proteins. Mass spectrometry has also the ability to distinguish and quantify isotopically labelled and unlabeled selected targets. This ability was used in a publication by the group of R. Bateman (Washington University, St Louis, USA) who could, after administering stable isotope-labelled leucine, evaluate Ab synthesis and clearance in humans. This approach has an enormous potential to study the metabolism of proteins within the human CNS and consequently help in the understanding and diagnosis of neurological disorders.The main objective of this program is set up a targeted quantitative mass spectrometry method for existing and stable isotope-labelled CSF biomarkers in the neurological field; exploit this approach for diagnostic purpurses and to gain knowledge in the pathophysiology of diseases.
The purpose of this randomized control trial study is to determine if an active rehabilitation (low intensity exercise program) in combination with a comprehensive education intervention (standard care) is more effective than the comprehensive education intervention alone in reducing post-concussion symptoms and improving participation in daily activities in youth who have persistent post-concussion symptoms.
Mild traumatic brain injury (MTBI) is a common injury that involves loss of consciousness or alteration in mental status induced by an external mechanical force to the head. Education about symptoms and reassurance of a prompt recovery usually results in full recovery. However, a subgroup appears to have persistent symptoms and disability. This study will recruit MTBI patients from two Emergency Departments with the aim of identifying modifiable patient characteristics that can delay or prevent full recovery. A secondary aim is to determine if providing education in writing or in-person makes a difference.
Deficits in memory, attention, cognitive, and executive functions are the most common disabilities after traumatic brain injury (TBI). Dopamine (DA) neurotransmission is implicated in these neural functions and dopaminergic pathways are recognized to be frequently disrupted after TBI. One of the most widely used DAergic drugs is methylphenidate (Ritalin®). Methylphenidate increases synaptic DA levels by binding to presynaptic dopamine transporters (DAT) and blocking re-uptake. PET with methylphenidate challenge to measure tonic DA release provides valuable insight into the molecular basis of attention-deficit hyperactivity disorder (ADHD) and addiction, as well as practical information regarding likely effectiveness of therapy (1). The objectives of this study are to use PET imaging with [11C]-raclopride, a D2/D3 receptor ligand, before and after administering methylphenidate, to measure endogenous DA release in patients who are experiencing problems with cognition, attention and executive function in the chronic stage after TBI. In addition, we will use TMS to test short intracortical inhibition, a gamma-aminobutyric acid receptor A (GABAA) - mediated phenomenon, which is under partial DA control, as a measure of dopaminergic activity on and off methylphenidate.
The purpose of this study is to determine whether NNZ-2566 is safe and well tolerated in the treatment of mTBI in adolescents and adults.
The purpose of this study is to determine whether there is a difference in cerebral oxygenation as measured by near-infrared spectroscopy (NIRS) in children with concussion and healthy controls.