View clinical trials related to Perceptual Disorders.
Filter by:The goal of this retrospective is to investigate the relationship between lesion site and neglect anosognosia in subacute or chronic right hemispheric stroke patients with left hemispatial neglect. The main questions it aims to answer are: - Was any lesion site related to a higher neglect anosognosia rate? - Did any lesion site related to a more severe neglect anosognosia? Participants will be divided into two groups regarding the presence of anosognosia for spatial neglect. Researchers will compare patients with and without anosognosia to see if any lesion site resulted in a higher anosognosia rate and more severe unawareness of neglect symptoms in daily life.
Anosognosia for hemispatial neglect is an intriguing phenomenon characterized by decreased awareness of spatial deficits, common in patients with right hemisphere stroke. However, it has not been examined as extensively as anosognosia for hemiplegia. In this study, we aim to investigate the relationship between the decrease in anosognosia for neglect and the improvement of spatial deficits.
Goal: Various studies suggest a negative association between spatial neglect and motor outcomes after stroke (Barrett & Muzaffar 2014) (Kwakkel 2014). Our goal is to assess: - The longitudinal interaction of the recovery of spatial neglect with the recovery of motor function and outcomes (such as paresis, sitting balance and standing balance) - Whether the association is different across the different subtypes of spatial neglect (visuospatial/personal/ADL-related) - The role of compensation strategies for balance control in patients with spatial neglect To do so, we will perform a longitudinal cohort study in which we will repetitively assess post-stroke patients using a comprehensive assessment approach for both spatial neglect and motor outcomes. With regards to neglect, we will evaluate various aspects of both visuospatial and personal neglect. For motor outcomes, we will combine clinical and instrumented (biomechanical) assessment methods to evaluate post-stroke recovery of leg paresis, (sitting and standing) balance and gait.
This qualitative study aims to identify the needs and recommendations of both patients and healthcare professionals in terms of rehabilitation technology, more specific three pre-defined user scenarios. These scenario were developed based on brainstorm sessions with healthcare professionals from the rehabilitation ward of UZ Brussel and AZ Sint-Maria Halle. The purpose of this study is to create an overview of recommendations that will be used to develop the smart devices in a later stage of the SAIRE project.
Spatial neglect represents a common and severe cognitive disorder following unilateral (mostly right hemisphere) stroke. Patients are unaware of objects, persons and even own body parts in the (usually left) hemispace opposite to their brain lesion. While there is spontaneous remission in some patients, neglect symptoms persist in many stroke survivors which is associated with a poor functional outcome. Although different therapeutic approaches (including cognitive interventions, non-invasive brain stimulation and drugs) have been investigated in the last decades, an established therapy is still missing. Hence, there is a clear need for an effective and feasible intervention that can be applied in rehabilitation centers. This study is dedicated to assess the effect of a cognitive treatment consisting of combined optokinetic stimulation (OKS) and cueing-based reading therapy (READ) on hemispatial neglect and the neglect-related functional disability in right-hemisphere stroke patients. It will be a mono-centric, randomized, controlled, clinical trial. Using a crossover design with two arms, patients will either receive the intervention therapy (OKS-READ) first and subsequently the control treatment (neuropsychological training not targeting visuospatial attention) or they will start in the control arm and then switch to the intervention. Each treatment phase consists of 15 therapy sessions lasting 30 to 45 minutes. The outcome will be assessed at different time points, including established neuropsychological tests for spatial neglect and a clinical score of neglect-related functional disability.
Presentation and standardization on a normative sample of a new neuropsychological tool to provide a quantitative assessment of visual unilateral spatial neglect in the extrapersonal portion of space.
Music Neglect Training has been developed for patients with hemispatial neglect to improve their attention on the left side. The purpose of this study was to examine the immediate and carry-over effect of Musical Neglect Training on unilateral visual neglect. Standardized assessments (Albert's test and Line Bisection Test) were used to measure a range of visual field. A total of 6 musical exercises with tone bars which are aligned horizontally helped to improve attention and perception of the visual field on the left side.
Older people experience great difficulty understanding speech, especially accented English, and this problem is expected to increase with the influx of immigrants who provide services to the elderly population. The research examines the underlying factors that contribute to older listeners' difficulty understanding accented speech, including those associated with age-related hearing loss, changes in processing in auditory pathways in the brain, and general cognitive decline. The investigation also evaluates the efficacy of training strategies to improve understanding of accented English by older people. Outcomes of this research are expected to improve communication between senior citizens and those with whom they interact daily, and thereby improve quality of life for the older segment of the Nation's population.
Head-mounted display based virtual reality rehabilitation for hemispatial neglect.
Brain functions are supported by multiple cell types, including neuronal and non-neuronal cells that are connected into complex networks. When the connectivity between those cells is altered or disrupted, the functioning of the brain is impaired. In stroke, the interruption of blood supply to the neural circuits results in connectivity damage and permanent disabilities. Experimental evidence suggests that some types of brain state, including sleep, can protect brain tissue from stroke and "repair" the damaged circuits. This project will investigate the neuronal mechanism underlying the protective effect of sleep on brain connectivity and network activity. To this end, the investigators will use a collection of state-of-the-art technologies including high-density electroencephalography (hd-EEG), transcranial magnetic stimulation (TMS) and transcranial alternating current stimulation (tACS). Perspectives include a better understanding of the causes and consequences of the perturbed electrical activity of the brain during sleep in stroke patients.