View clinical trials related to Acquired Brain Injury.
Filter by:Stroke and Acquired Brain Injury (ABI) represent a major cause of long-term disability among survivors. Many psychological difficulties can also occur including: depression, anxiety, fatigue, and post-traumatic stress disorder. This has a marked impact on health service usage. Despite certain interventions being offered to support stroke survivors and individuals with brain injury, there is still an outstanding need to increase and improve psychological resources for this population. This research proposes to evaluate the effectiveness of a group therapy intervention, using a model called Acceptance and Commitment Therapy (ACT), for stroke survivors and adults with ABI. This ACT group aims to promote positive adjustment and improve wellbeing, whilst also aiming to reduce levels of distress. The research will comprise of two parts (one quantitative and the other qualitative).
A non-blinded randomised controlled feasibility study of weighted blankets to help agitation and disturbed sleep after brain injury. This is a single centre study based in a community hospital in the UK. Outcomes centre on determining the feasibility and acceptability of the study taking place in an NHS setting.
This study investigates whether an individually designed environment can support and improve the quality of daytime resting periods in in-hospital neurorehabilitation of patients suffering severe acquired brain injury. The effect of a individually optimized resting environment will be tested against a standard resting environment.
The current study will evaluate the feasibility of transcranial direct current stimulation (tDCS) combined with an existing intensive physiotherapy program for children with ABI within the in/day-patient brain injury program at Holland Bloorview Kids Rehabilitation Hospital, Toronto, Canada. This feasibility randomized control trial will allocate 30 participants with ABI (age 5 to 18 years) to one of two treatment groups. One group will receive active tDCS prior to four of their existing physiotherapy sessions each week for a total of 16 sessions while the other group will receive sham/placebo tDCS prior to their physiotherapy sessions. Recovery of gross motor function will be compared between groups after the four weeks of tDCS treatment and again after three months to evaluate the short and longer-term impact of tDCS on an existing intensive physiotherapy program. Feasibility will be evaluated by tracking process, resource, and treatment indicators such as eligibility, enrollment, adherence, and tolerance rates.
The aim of the study is to evaluate the feasibility of a newly developed intervention to improve family support for patient with acquired brain injury (ABI) in early phase of hospitalization (SAFIR): the main components are the assessment of the family, the emotional support for the families, the information giving to the families, the inclusion of the families in the care process and the care coordination between the inter professional team. The main outcomes of the study are feasibility and acceptability outcomes of the newly developed intervention, and trend in efficacy in the family functioning, coping and perceived support from the nurses.
In this preliminary study, we will examine the safety, tolerability, and feasibility of transcranial direct current stimulation (tDCS), in the setting of dosage escalation, as a candidate intervention for children with Acquired Brain Injury (ABI).
This study will compare different polarities of transcutaneous spinal direct current stimulation combined with robotic-assisted arm training (RAT) in adults with acquired brain injury (ABI). Participants will receive 20 minutes of 2.5 milliamps (mA) anodal, cathodal, and sham transpinal direct current stimulation (tsDCS) over cervical spine combined with high intensity robotic-assisted arm training, five days a week, for 2 consecutive weeks.
In this study, an FDA-cleared device and type of treatment called "AMES," which stands for Assisted Movement with Enhanced Sensation, will be used to determine whether sensation in the upper limb of individuals with incomplete spinal cord injuries, acquired brain injury, or stroke improves along with movement through treatment. We hypothesize that measureable improvement in the sensation of the upper limb will precede improvement in functional movement.