View clinical trials related to Brain Injuries.
Filter by:Care partners of persons with traumatic brain injury (TBI) are often faced with considerable physical and emotional stress resulting from their caregiver role. The researchers hypothesize that the care partners who receive the intervention will show improvements in caregiver strain and mental health.
Background: Individuals with neurological conditions (stemming from brain injury or stroke) can experience high levels of emotional distress leading to decreased quality of life and increased health care costs. Though mental health problems are prevalent and disabling, they often go untreated for various reasons, such as access to specialized care, rural and remote location, lack of time, or concerns about stigma related to seeking care. Internet delivered cognitive behaviour therapy (ICBT) overcomes barriers to face-to-face therapy by often reaching a much wider group of patients who experience unequal access to health care. The internet based program is based on cognitive behaviour therapy, which is an evidenced-based treatment that helps patients identify and modify thoughts and behaviours that contribute to their mental health concerns. ICBT has been shown to be effective in improving psychosocial outcomes such as depression and anxiety, along with disability and quality of life among persons with chronic health conditions. Rationale: Despite evidence for ICBT among those with other chronic conditions, its efficacy has yet to be evaluated among those with neurological conditions such as brain injury and stroke. Objective: The aim of the current study is to pilot an ICBT program developed through a patient oriented approach to improve overall wellbeing among those with mild traumatic brain injury. Methods: In this project, an ICBT program for those with mild traumatic brain injury developed through an patient oriented approach (Phase 1) will be piloted amongst a small group of participants (n=20) to examine acceptability, feasibility, and limited efficacy. At the end of the program, participants will be asked to complete a brief semi-structured interview examining barriers and facilitators to the ICBT program. Participant feedback from the interviews will be used to further improve the ICBT program to meet the needs of the population. The results from the study will be used to guide larger studies to evaluate effectiveness of the program in a community setting. Anticipated Impact: Ultimately, the proposed project aims to improve overall wellbeing and access to health care service for those who have mild traumatic brain injury and mental health concerns.
Acquired brain injury (ABI) in childhood are the cause of disabling motor, cognitive and behavioural disorders, with severe consequences on the later development of autonomy and learning, with long-term repercussions on independence for activities of daily living, and social and professional integration. Among cognitive disorders, executive function (EF) deficits are among the most frequent and disabling, with major consequences on the development of autonomy and the course of schooling and learning. The Cognitive Orientation to daily Occupational Performance (CO-OP) could be an interesting approach for the rehabilitation of these consequences. CO-OP is a performance-based treatment approach for children and adults who experience difficulties performing the skills they want to, need to or are expected to perform. CO-OP is a specifically tailored, active client-centered approach that engages the individual at the meta-cognitive level to solve performance problems. Focused on enabling success, the CO-OP approach employs collaborative goal setting, dynamic performance analysis, cognitive strategy use, guided discovery, and enabling principles. It has been shown to be effective in a variety of populations, but has been little explored in children with ABI. The hypothesis that CO-OP is effective in improving the occupational performance and executive functioning of these children on a daily basis is emerging, but needs to be confirmed. This study falls within this framework. Primary objective: 1. To measure the distance maintenance of the knowledge acquired through rehabilitation, as well as the generalization and transfer into everyday life. 1. Maintenance of acquired knowledge 2. Generalization and transfer 3. Impact of a consolidation session on generalization and transfer Secondary objectives: 2. Gather the experience of family members/caregivers in accompanying their child in the CO-OP process outside of rehabilitation sessions. 3. Establish the parental educational style and identify whether there is a link between the parental educational style and the commitment of the family members/caregivers.
Concussions are the leading form of mild traumatic brain injury. Management of concussions and mild traumatic brain injury is a high priority medical focus, social concern, and research topic. Currently, there are no FDA approved treatments for acute concussion. The current standard of care is rest followed by gradual return to normal activity. The purpose of this study is to show improvement in the way patients feel or function after a concussion. OXE-103 is a protein hormone produced in the laboratory which identical to the hormone ghrelin that is secreted by the stomach. This study will investigate the use of this hormone as treatment for symptoms of acute concussion. The goal of this study is to show improvement in the way study participants feel or function after concussion. An OXE-103 (ghrelin) agonist is already FDA approved for another condition, but not for concussion. For concussion, it is considered investigational. This study will examine, if ghrelin is taken every day for two weeks, if the brain will heal faster and help improve or resolve symptoms. The study will also include a placebo arm and a non-treatment group (for those who wish to participate but do not want to receive any treatment). The OXE-103 and placebo will be self-administered through injections using needles.
Traumatic brain injury is combination damage that occurs as a result of a chain reaction of various metabolic events that develop after primary damage caused by trauma. Pathological events such as lactic acidosis, electrolyte imbalance, increased inflammation that occur during traumatic brain injury leads to poor prognosis in patients. The retrospective study was conducted to investigate the effect of factors that may cause secondary damage, especially electrolyte imbalance and blood glucose levels, on mortality and morbidity in patients undergoing emergency surgery due to head trauma.
The focus of this study is to test a treatment program (Strategic Memory Advanced Reasoning Training; SMART) that was developed to address specific brain functions found to be crucial for the recovery following traumatic brain injury (TBI). New research has shown that when these very specific brain functions are targeted, such as ability to focus on a task while ignoring irrelevant information, brain changes are more significant. SMART emphasizes top-down processing by targeting focused attention, assimilation of information, and mental flexibility and innovation, all higher-order cognitive functions driven by the frontal lobes. Evidence from other top-down cognitive training programs demonstrates their effectiveness in improving cognitive and daily functioning in individuals reporting a TBI. In addition to improving frontal lobe capacity, SMART has also been shown to increase brain blood flow critical for complex thinking and strengthen white matter integrity. The effectiveness of SMART has been extensively tested with a variety of populations, including healthy adults and adolescents, adolescents with brain injuries, healthy seniors and those at risk for Alzheimers, and veterans and civilians with lingering impairment following TBIs. This will be the first study to test its effectiveness with individuals with mild TBI (MTBI) and posttraumatic stress disorder (PTSD). The SMART program has previously been tested with patients with TBI using an 18-hour training format. When compared to the Brain Health Workshop (BHW), an education-based active learning module, participants in the SMART group (n = 31) demonstrated improvements in gist reasoning, executive function, and memory, generalization of improvement to daily functioning activities and continuation of these gains 6 months posttraining. The training consisted of 15 hours of training conducted over 10 group sessions in the first 5 weeks and a final 3 hours of training at spaced intervals over the next 3 weeks. SMART training has not been tested with patients with PTSD-related neuropsychological impairments. The purpose of the current study is to investigate the efficacy of a shortened training program (9 hours) in improving neurocognitive function in patients with mTBI and/or PTSD.
Up to 40 participants will be enrolled in this study in order to obtain complete data on 30 participants. The investigators will be assessing if Augmented reality in combination with treadmill training is safe and feasible to use in the clinical environment with participants who have chronic TBI and if there is a signal of effect that this intervention may be more beneficial than treadmill training alone or standard of care.
The aim of this study is elucidate genetic susceptibility of patients with traumatic brain injury (TBI) and symptoms of Brain Injury Associated Fatigue and Altered Cognition (BIAFAC) using genome-wide association study (GWAS).
The aim of this study is to evaluate whether the addition of amantadine to the management regimen of traumatic brain injury patients would have a favorable effect on recovery and neurological complications in association with prognosis biomarkers Interleukin-18 (IL-18), Neuron-specific enolase (NSE) and (Neurotensin).
EGDS management strategy was implemented in ICU patients with severe brain injury, the depth of sedation and GCS score were monitored, and the protective effects of EGDS strategy and standard sedation strategy on the brain of patients with severe brain injury were discussed.