View clinical trials related to Acquired Brain Injury.
Filter by: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.
Acquired brain lesions (GCLA) represent one of the most important cause of disability and mortality during the pediatric age, also in the western Countries. The important medical progresses of the last decade in the medical field have increased the percentages of survival, also in the most severe clinical pictures. On the other hand, a brain lesion reported in the first years of life presents with a more dramatic impact on the cognitive and neurological development of the patients and it can significantly interfere with the same quality of their life. Recent studies suggest that a brain damage in this stage of the life is related to more persistent sequelae in comparison of the same lesion reported by an adult patient, because of the neurological immaturity at the moment of the insult. Furthermore, in most cases, the brain lesion is related not only to motor and sensorial deficits but also to very important behavioral and cognitive problems, that can arise immediately after the acute phase, or also several years after the pathological event.
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.
This study uses a Doppler ultrasound technique being developed at the University of Leicester called 'Brain Tissue Velocimetry" (Brain TV), to investigate brain tissue motion over the cardiac cycle.
The purpose of the study is to provide evidence of feasibility, acceptability, patient satisfaction, and patient perceived benefit of the Multicontext (MC) approach. The project consists of eight case studies of persons with acquired brain injury undergoing acute inpatient rehabilitation who have difficulties in completing multiple step activities due to deficits in executive function and/or visual perception. The MC approach provides a structured occupational therapy framework that provides guidelines for enhancing strategy use and self monitoring skills for person's with acquired brain injury.
The proposed clinical investigation plan is a pivotal controlled study with two parallel groups, has a total duration of 12 months and involves the recruitment of 34 pediatric patients suffering from acquired brain injury. The primary objective of the clinical study is to evaluate the improvement of joint stiffness through the use of sensorized pseudoelastic orthoses for the rehabilitation of pediatric patients with acquired brain injury. The effectiveness of the treatment in terms of joint stiffness (primary outcome) will be assessed and the effect of the treatment will be quantified with clinical evaluation scales and instrumental measurements by means of an optoelectronic system and isokinetic machine. The tolerability and acceptability of the device will also be checked.
Robots are commonly used in many settings to help with transportation needs, reduce human injuries, and assisting clinicians during surgeries. These applications could provide direct benefits to patients in the clinical rehabilitation field. In this study, the feasibility of 2 CARE robot prototypes in facilitating dependent transfers and assisting patient mobility in their daily living activities will be studied.
Although neuroplasticity of the brain is high in childhood, some neuropsychological sequelae could persist over the long term in children with Acquired Brain Injury (ABI). Many children with TBI, show deficits in pragmatic abilities that usually persist. Pragmatic difficulties have been observed also in children with sequelae of brain neoplasms . The lack of validated assessment tools for this population is described in literature. This limit is also valid for the tests that assess pragmatic abilities. The tests that SLPs usually administer investigate only the comprehension of verbal pragmatic and, sometimes the comprehension of linguistic and emotional prosody as well. This could lead to the risk that, sometimes, some pragmatic abilities might not be included in the evaluation. Moreover, it leads to a harder definition of the treatment aims and a harder objective demonstration of treatment outcomes. For these reasons, it is important to use an assessment tool that provides information on all the pragmatic abilities, not only in input but also in output. Some Italian researchers, recently, developed a test that investigates all these areas. It is called "ABaCo", and it is based on the Cognitive Pragmatics Theory. This theory is focused on cognitive processes underlying human communication. This test is standardized on a normative group of 300 adults. It was developed with the aim of assessing pragmatic abilities in adults with brain injuries. The assessor shows short videos to the patient, and he/her has to complete or understand the interaction transmitted through different communication channels. The authors also created an adaptation of this test for children aged 5 to 8.6 years old, modifying some items. After that, they administered this adaptation of the test to 390 healthy children. In another study, the authors administered this version of the batteries to children with autism spectrum disorders and to a control group of healthy children, matched by age and sex. Considering all the studies that already exist for the application of this assessment tool in childhood and adolescence, and the perspective of a standardization for developmental ages, this study aims to investigate whether this test could be useful to detect pragmatic difficulties also in children with ABI.
This project will determine the feasibility and validity of measuring elbow muscle flexor stiffness in a population of patients with sub-acute severe acquired brain injury using two measurement methods, the portable spasticity assessment device (PSAD) (Movotec, Charlottenlund, Denmark) and an ultrasound measurement called shear wave sonoelastography (SWE).
Memory deficits are common sequelae of pediatric Acquired Brain Injury (ABI). Only methods for non-focused cognitive remediation are available to the pediatric field. The aims of this feasibility trial are the description, implementation, and test of an intensive program specific to the training and re-adaptation of memory function in children (IM-FTP). Method: Eleven children and adolescents with ABI (mean age at injury=12.2 years, brain tumor survivors excluded) were clinically assessed and rehabilitated over 1-month through IM-FTP, including physio-kinesis/occupational, speech, and neuropsychology treatments. Each patient received a psychometric evaluation and a brain functional MRI at enrollment and at discharge. Ten pediatric controls with ABI (mean age at injury=13.8 years) were clinically assessed, and rehabilitated through a standard program.