View clinical trials related to Traumatic Brain Injury.
Filter by:This pilot study will compare a yoga program to a non-yoga exercise program in adults with brain injuries. The investigators will measure possible improvements in balance and heartrate. The investigators also plan to measure changes in brain function and link balance and/or heartrate improvements to changes in brain function. Ideally, this work will create a foundation for a larger-scale study.
At present, there is no empirical data that specifies the likely prevalence of purpose in life disruption among various clinical populations. Between one-third and one-half of cancer survivors report some degree of existential distress during or after their treatment, but these findings are not specific to the domain of purpose in life. To address the aforementioned gap, we propose to conduct a survey study to determine the prevalence of purpose disruption in two clinical populations and determine if the prevalence of purpose disruption in these populations is different from that of a normative population.
The purpose of this study is to examine the effects of individualized aerobic exercise regimen on recovery after traumatic brain injury (TBI).Investigators will determine if exercise facilitates recovery by facilitating neuroplasticity and decreasing neuroinflammation.
Traumatic Cerebral Vascular Injury (TCVI) is a common consequence of traumatic brain injury (TBI), including mild TBI (mTBI). TCVI is associated with poor recovery after TBI in animal models. TCVI can be measured non-invasively in humans, and therapies targeting TCVI are attractive candidates to ameliorate the consequences of TBI. Sildenafil potentiates nitric oxide (NO) dependent vasodilatation and is approved by the Food and Drug Administration (FDA) for the treatment of erectile dysfunction and primary pulmonary hypertension. In pre-clinical models of stroke, sildenafil improves cerebral blood flow (CBF), promotes, angiogenesis, neurogenesis and improves recovery. In an initial Phase 2a trial (NCT01762475) of sildenafil in patients with chronic moderate to severe TBI, the investigators found that low dose sildenafil (25 mg BID) therapy is safe and well tolerated, that a single dose of sildenafil 50 mg potentiates CVR in areas of the brain with dysfunctional endothelium, and that CVR is a reliable diagnostic marker of TCVI and has potential as a pharmacodynamic and predictive biomarker. In this proposal, the investigators will conduct a randomized clinical trial to determine the optimal PDE5 inhibitor dose to improve or normalize microvascular function (as measured by the change in CVR measurements before and after a single dose of sildenafil, or ΔCVR) using a range of sildenafil citrate doses: 20, 40, 80 mg) in chronic TBI patients. The investigators will also test the safety and tolerability of the same dose ranges of chronic (4-week) thrice daily sildenafil or placebo administration in chronic TBI patients and explore its effects on chronic symptoms and clinical outcomes.
Aim: Investigate whether patients undergoing specialist rehabilitation after complex neurological injury show different functional outcomes if music therapy is included in their rehabilitation program compared to usual care. Background: Patients with complex needs following a brain, spinal cord, and/or peripheral nerve injury often require a period of specialist neurorehabilitation. This involves multiple therapy disciplines, led by a Consultant in Rehabilitation Medicine, Neurology, or Neuropsychiatry. Although music therapy is suggested to enhance neuroplasticity and recovery in patients with brain injury, it is not routinely commissioned in clinical care due to a lack of supportive evidence. Hypothesis: Patients undergoing music therapy in addition to complex specialist rehabilitation show better functional outcomes compared to usual care. Number of participants: 75, aged 16-80 years. Methods: Patients undergo baseline assessments and are randomised to MUSIC or CONTROL Therapy. Both arms receive 1-3 additional therapy sessions per week, matched for duration and number, total 15 hours. After approximately 10-weeks intervention, assessments are repeated. All participants then have access to music therapy until they are discharged from Neurorehabilitation Unit (NRU), with additional qualitative data collection using semi-structured interviews, field notes, staff reports, staff stress surveys, and broader ecological observations. Duration for Participants: From consent to discharge from NRU. Primary Outcome: Change in Functional Independence Measure+Functional Assessment Measure (FIM+FAM), Northwick Park Dependency Scale (NWPDS), and Barthel Activities of Daily Living pre and post 15 hours intervention. Secondary Outcome: Change in quality of life (Flourishing Scale), psychological distress (Hospital Anxiety and Depression Scale, Depression Intensity Scale Circles), social interaction (Sickness Impact Profile Social Interaction Subscale), well-being (WHO Well-Being Index), and communication (Communication Outcomes After Stroke Scale), pre and post 15 hours intervention. Mean difference in well-being (WHO Well-Being Index) throughout the intervention period between music therapy and control therapy groups. Mean difference in post-intervention pain and mood visual analogue scores between music therapy and control therapy groups.
The purpose of this study is to examine the feasibility of comprehensive multimodal individually tailored Cognitive Behavioral Therapy (CBT), Cognitive Rehabilitation Therapy (CRT), and modifiable lifestyle sessions. The study team hypothesizes that combining evidence-based cognitive and affective therapies with lifestyle modifications is feasible and will improve the community integration (CI) and Quality of life (QoL) in patients with a neurocognitive disorder compared to usual care.
The goal of this observational study is to learn about changes in the brain of patients over the first 3 years following a traumatic brain injury (TBI). The main question it aims to answer are: - How TBI effect the rate of brain tissue loss compare to healthy brain Participants will give blood samples, complete MRI scans, and neuropsychological assessment measures. Researchers will compare results between healthy control group and TBI group to determine changes in injured brains.
This pilot study aims to determine the feasibility of a virtual reality treadmill training intervention in individuals with Traumatic Brain Injury (TBI). Participants will be stratified based on age into adults' group or older adults' group and then randomized into the virtual reality treadmill training (intervention) group with feedback or the treadmill training (control) group. This pilot study will also provide preliminary evidence on the impact of the virtual reality treadmill training on mobility, balance, fear of falls, fall risk, attention and physical activity in the community in individuals with TBI. The data collected in this pilot study will also help to estimate sample size for subsequent large clinical trial.
Children suffer proportionally more head injuries than any other age group and children with head injuries have the highest mortality of all children admitted with traumatic injuries. The investigators aim to investigate the factors that contribute to poor outcomes after paediatric acute brain injury by collecting observational and outcome data. Much of the brain damage that results in poor outcomes actually happens in the hours and days after the injury. This is due to several factors such as brain swelling and poor oxygen delivery to the brain. Treatment is directed to try and protect the brain against these factors. Current management of the head injured child focuses on monitoring pressure within the head. However, this does not detect all the factors that cause continuing brain damage. Special monitors that follow oxygen levels and chemical changes in the brain are used safely in adult patients but have not been widely employed in children despite their potential benefit. There is therefore the opportunity to evaluate extra monitoring of the child brain, and in doing so, help refine the management of these patients.
New learning and memory impairment (NLMI) is a common and devastating manifestation of TBI associated with substantial life burdens. Persons with moderate to severe TBI have shown improvement in NLM for prose material (e.g. story) as well as beneficial changes in default-mode network (DMN) activation during list-learning19 following treatment with the Kessler Foundation modified Story Memory Technique® (KF-mSMT®). Benefits, however, were moderate and did not yield downstream improvements in daily life. It is thus critical to examine other approaches to complement the KF-mSMT® for robustly managing NLMI in TBI. The proposed RCT will be the first to include aerobic exercise training (AET) as a highly-promising complement to the KF-mSMT® for robustly managing NLMI, examining impact on NLM, its neural correlates, and daily life in NLM impaired persons with moderate-to-severe TBI. We thus propose a two-arm, parallel group, double-blind RCT comparing the effects of the KF-mSMT+AET with the KF-mSMT+S/T (active control condition) on NLM (Aim 1), hippocampal MRI (Aim 2), and daily life outcomes (Aim 3). 60 NLM impaired persons with moderate-to-severe TBI will be randomized to one of 2 conditions (30 per condition). Each condition will take place 3 days per week for 12 weeks and will be supervised by KF personnel. Participants will be blinded as to the intent of the conditions. We will further explore baseline predictors of clinically meaningful changes in NLM for those completing the KF-mSMT + AET condition (Exploratory Aim 4). If successful, this trial will position combinatory KF-mSMT and AET within the clinician's arsenal for robustly managing NLMI in persons with TBI. By augmenting the effects of KF-mSMT with AET, this treatment aims to exert a powerful countermeasure to TBI-related NLMI, and ultimately help those with TBI-related NLMI return to the workforce, independently manage their everyday lives, and maintain optimal quality of life. Additionally, while rigorously designed to answer the scientific question of the relative benefit of AET with the KF-mSMT, the proposed study is will likely provide some level of benefit to all study participants. If successful, this trial will provide Class I evidence of combined KF-mSMT and AET for rehabilitating NLMI in TBI, based on standards published for therapeutic trials by the American Academy of Neurology, thus positioning such an approach within the clinician's arsenal for robustly managing NLMI. By augmenting the effects of KF-mSMT with AET, we anticipate this treatment will ultimately help those with TBI-related NLMI return to the workforce, independently manage their everyday lives, and maintain optimal quality of life.