View clinical trials related to Brain Injuries.
Filter by:Gait impairment in people with acquired brain injury (ABI) and spinal cord injury (SCI) can be very heterogeneous. For this reason, STELO has been developed: a new concept of exoskeleton based on modular technology for gait assistance. It allows a personalised configuration according to the functional capacity of each patient, as the therapist can choose which robotic joints to use depending on the therapeutic goal and on the patient recovery phase. The objective is to analyse the usability of the STELO modular exoskeleton in people with ABI and SCI.
Our successful R01 discovered 1) the neural mechanistic difference between typically occurring convergence insufficiency (TYP-CI) and binocularly normal controls and 2) the underlying mechanism of office-based vergence and accommodative therapy (OBVAT) that is effective in remediating symptoms. Adolescent and young adult concussion is considered a substantial health problem in the United States where our team has shown that about half of patients with persistent post-concussion symptoms have convergence insufficiency (PPCS-CI), causing significant negative impact associated with reading or digital screen-related activities, and is believed to be one factor causing delayed recovery impacting return to school, sports, or work. The results of this randomized clinical trial will impact the lives of adolescents and young adults with PPCS-CI to guide professionals on how to manage and treat those with PPCS-CI by 1) comparing the differences between PPCS-CI and TYP-CI, 2) discovering the neural mechanism of OBVAT for PPCS-CI compared to standard-community concussion care, and 3) determining the effectiveness of 12 one-hour sessions compared to 16 one-hour sessions of OBVAT.
Traumatic brain injury (TBI) is a significant problem for U.S. Hispanic children. Compared to non-Hispanic children, Hispanic children have higher long-term disability and lower health related quality of life, even though differences are not present at hospital discharge. Rehabilitation decreases disability, but needs timely initiation, and long treatments in hospitals, community healthcare facilities and schools. Parents play a key role in their child's recovery. Hispanic parents face additional barriers to initiate and maintain outpatient treatments. They report knowledge gaps in TBI-education, community, and school support systems; language and health literacy barriers. The investigators developed, a bilingual bicultural theory-based program for Hispanic families consisting of Brain Injury Education and outpatient care Navigation (1st BIEN). It integrates in-person education enriched by video content delivered through mobile phones, with navigation during transitions to outpatient care and school return. The pilot established feasibility and acceptability of the program. This randomized control trial will determine efficacy to maintain long-term adherence to rehabilitation and reduce disability. It will enroll 150 parent-child dyads: children (6-17 y), with mild-complicated, moderate-severe TBI in 5 centers in Washington, Texas, Dallas, Utah and Oregon and their parents. Intervention group parents receive: One in-person education session, plus bi-weekly videos tailored to the child's TBI and therapies; and, 3-months of bilingual outpatient care navigation. Attention control parents receive one in person-education session, monthly well-child texts and usual institutional follow up care. Primary outcome is treatment adherence at 6 months post-discharge measured by percentage of follow-up appointments attended during the prescribed time at hospitals, and community care facilities. Secondary outcomes are functional status of the child using PROMIS parental report measures; and parental health literacy, self-efficacy, and mental health at 3, 6, and 12 months after discharge. Child's academic performance will be assessed using school records. The study evaluates a flexible and scalable intervention using mobile phones to aid transitions of care, improve treatment adherence and TBI outcomes. It addresses the needs of an understudied population and can serve as a model for TBI family centered care for at risk groups.
Children requiring inpatient rehabilitation treatment following acquired brain injury (ABI) are at risk for poor engagement in rehabilitative therapies. A within subject crossover design will be used to determine whether involving dogs in physical and occupational therapies while receiving inpatient rehabilitation improves patient engagement, how involving dogs improves engagement, and identify who is most likely to benefit. This project addresses the critical need to establish an evidence base for animal-assisted therapies in pediatric rehabilitation, incorporates innovative methods, and has the potential to lead to improved clinical care for children and adolescents receiving intensive rehabilitation following ABI.
The CONNECT-TBI Trial aims to develop safe, effective treatments for complex mTBI that improve cognitive functioning. Based on the compelling preliminary data generated by our study team, the objective of this study is to conduct a randomized, double-blinded, sham-controlled Phase II clinical trial of APT-3 combined with rTMS, HD-tDCS, or sham to treat cognitive control deficits in Veterans with complex mTBI and PPCS. At the Baseline Visit, participants will undergo demographic, neuropsychological, behavioral, and quality of life testing. They will also undergo structural MRI to permit modeling of their brain, resting/task-related fMRI to identify the CCN, and pseudocontinuous arterial spin labeling (pCASL) and diffusion tensor imaging (DTI) to assess for other pathologies. They will then be randomized to 16 sessions of APT-3 with concurrent rTMS, HD-tDCS, or sham stimulation delivered to the unique functional left dorsolateral prefrontal cortex (DLPFC), a primary node of the CCN. Lastly, they will repeat all baseline tests, and report on 3- and 6-month recovery levels to establish longevity and stability of subjective benefit. Given that this individualization protocol has never been attempted for cognitive rehabilitation in military mTBI, we expect this trial will generate useful effect sizes for HD-tDCS and rTMS to be used for powering the next step, a Phase III multi-center trial.
The underlying pathophysiology following traumatic brain injury (TBI) in how different neurodegenerative conditions are developed are still unknown. Different neuroinflammatory and neurodegenerative pathways have been suggested. The goal of this study is to follow-up patients that have been treated for TBI at the neurosurgical department about 10-15 years after their initial injury, in order to analyze fluid biomarkers of inflammation, injury and degeneration and associate these with structural imaging and long-term functional outcome. The investigators aim to invite about 100 patients back and perform advanced magnetic resonance imaging protocols, sample cerebrospinal fluid and blood for different bio- and inflammatory markers, study genetic modifications and associate it with outcomes being assessed through questionnaires. The investigators' hypothesis is that patients with ongoing inflammatory processes will present with more fluid biomarkers of neurodegeneration, worse clinical presentation and also more structural/atrophic signs on imaging. This will result in an increased understanding of the interplay between neuroinflammation and neurodegeneration in chronic TBI, as well as a panel of tentative biomarkers that could be used to assess level of disability following TBI and chronic traumatic encephalopathy (CTE).
The purpose of this study is to assess the ability of the home-based intervention, HOBSCOTCH-PTE, to improve the quality of life and cognitive function in Service Members, Veterans and civilians with post traumatic epilepsy (PTE). This study will also assess the ability of the HOBSCOTCH-PTE program to improve quality of life in caregivers of PTE patients and to reduce caregiver burden.
Background: Concussion affects around 25 000 people each year in Denmark. A large research initiative (GAIN 2.0) has been established, and the current study is a part of this initiative. Aims: 1. To develop and test the efficacy of a novel intervention for people with persistent post-concussional mild-to-moderate symptoms: "Get going After concussion Lite" (GAIN Lite). 2. To increase the knowledge about the target group by investigating the association of physical activity, digital behaviour, and symptom load. Methods: A randomized controlled trial, comparing GAIN Lite to enhanced usual care. 100 adults diagnosed with a concussion at hospitals in Central Denmark Region or referred from general practitioners will be recruited. GAIN Lite is a digital intervention, and the primary outcome is the severity of post-concussional symptoms. A prospective cohort study will be performed to investigate the association between physical activity, cognitive processing, and symptom load.
Patients admitted to the ED with moderate to severe traumatic brain injury defined by GCS less than or equal to 10 and confirmed by head CT scan or MRI were randomized into 2 groups: one receiving animal assisted therapy (AAT) and one not receiving animal assisted therapy. Efficacy of AAT was measured by patient's progression in the Glasgow Coma Scale (GCS), Rancho Los Amigos Scale (RLAS), and ability to follow multi-step commands (LoCmds).
Head trauma is a frequent reason for consultation in the emergency room. The CT scan is the reference examination allowing rapid management of the patient. However, CT examinations are among the diagnostic examinations with the highest exposure to ionizing radiation. The study investigators have previously implemented "ultra-low dose" (ULD) acquisitions for several pathologies with an effective dose level similar to that of a standard radiographic examination. These ULD acquisitions are now routinely used in our clinical practice for explorations of the thorax, spine, pelvis and proximal femurs, extremities. This study expands these ULD acquisitions to skull CT for detecting traumatic intracranial lesions. The study investigators hypothesize that it would be possible to search for intracranial lesions in patients with head trauma using ULD protocols, thereby reducing the doses delivered to the patient while maintaining sufficient image quality for the diagnosis.