View clinical trials related to Hemispatial Neglect.
Filter by: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.
Information regarding the likely progress of post-stroke symptoms is vitally important to stroke survivors to allow them to plan for the future and to adjust to life after stroke. Moreover, the prevalence of morbidity secondary to stroke is of central importance to Health Professionals to understand the prognosis of the disease in the patients under their care. Additionally, it will also allow commissioners of care, planners and third sector organisations to adapt to and answer the needs of a post-stroke population. Currently, the data collected by national audit programmes are concentrated on what can be termed 'process or process of care' data. The utility of these data are in the ability to audit the care received by stroke survivors on stroke units against evidenced standards for care, thus ensuring evidence based practice. Nevertheless, process of care is only one form of measuring stroke unit care and the audit programmes collect some limited functional status data, data relating to risk-factor co-morbidities and treatment received data. Therefore, the scope of this study is to build on the minimum data set currently collected and to collect post-stroke data in domains not currently collected. The International Consortium for Health Outcomes Measurement (ICHOM) takes important steps to collect data outside of process of care data such as a Patient Reported outcome data in their minimum outcome data set for stroke [currently under review].. Nevertheless, the ICHOM doesn't currently advocate the specific collection of data relating to cognitive impairment or emotional problems secondary to stroke. It is in these important aspects that this study will augment the data set currently advocated by ICHOM to collect data in the areas of cognitive impairment and emotional problems secondary to stroke. Therefore, the aim of this study is to quantify the prevalence of morbidity at six months post-stroke.
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.
Hemispatial neglect is a post-stroke condition in which patients fail to detect stimuli presented on the side of space opposite to the damaged brain hemisphere (contralesional space). To date, there is no established effective treatment for this condition. A virtual reality (VR) behavioral training for the attention deficits characteristic of patients with hemispatial neglect was developed. Patients are stimulated in the visual and auditory modality to orient towards the contralesional side and are rewarded for detecting targets on this side in this training. In the current study the researchers aim to answer two main questions: 1) how feasible is a VR game-based intervention in stroke patients? and 2) what is the efficacy of the virtual reality game-based intervention in reducing the attention deficits characteristic of hemispatial neglect? To answer these questions a randomized partially double-blind placebo-controlled crossover study will be conducted. Two within-subject conditions will be compared: in the active condition patients will play a VR game in which multisensory stimulation is progressively presented in the neglected region (the location where previously presented targets were missed by the patient) and in the placebo condition patients will play a VR game in which the stimulation is presented in the center of of the VR environment. Neglect symptoms will be measured on a two-daily basis to establish the trend of symptom recovery through time. The hypothesis states that symptoms will recover more quickly when patients receive the active version of the VR intervention compared to the placebo version of the VR intervention.
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.
The presented study investigates standardized visual cueing in reading and visual spatial task as a treatment method for spatial neglect. In a randomized controlled design patients receive either cued reading and visual spatial tasks (intervention) or treatment which is unspecific to neglect (control). In the intervention condition, patients with left-sided neglect receive intense training, including reading and visual spatial task with standardized and adapted visual cueing by the therapist. Improvements in reading and visual spatial tasks lead to a reduction of cues by the therapist. Accordingly, the patient has to apply self-cueing over time in order to solve the task. For the control condition, all patients receive unspecific treatment without any standardized adapted cueing implemented by the therapist. To enhance the effectivity of cueing in reading and visual spatial tasks, the investigators additionally conduct parietal transcranial direct current stimulation (tDCS) in those patients without tDCS exclusion criteria (see exclusion criteria below). It is hypothesised that systematic and adaptive therapeutic cueing leads to a significant reduction of omissions of word and word parts in reading. UPDATE: No Add-on tDCS was performed since it was not applicable for our severly impaired patients due to the strict exclusion criteria of tDCS.
The purpose of this study is to examine measurement of unilateral neglect post stroke. Although a number of clinical assessments are used to measure neglect, it is unclear whether items from some of the most commonly used assessments are able to effectively and comprehensively measure neglect. This study will determine whether these assessments measure different aspects of neglect and whether items from various neglect assessments can be combined to more effectively measure neglect.
The purpose of this study is to test the effects of three different rehabilitation training sessions that combine non-invasive brain stimulation (transcranial direct current stimulation, tDCS) with arm rehabilitation training (repetitive task-specific practice, RTP) for individuals with unilateral spatial neglect following stroke. This study is designed to determine the effects of tDCS + RTP on the excitability in the brain, attention to the affected side, and arm movement ability.
This project is designed to test a lightweight, portable, computerized pair of glasses that will help reduce some of the cognitive deficits seen in patients who have suffered damage to their right cerebral hemisphere.
Purpose: Stroke is a common cause of death and disability in Canada. Injury to the right hemisphere of the brain and the parietal cortex in particular, is common and results in a disorder known as 'neglect' in 40% to 95% of patients. These patients fail to attend to or respond to events occurring in left space; the disorder is devastating for the patient and their caregivers with the patient becoming dependent on assistance for most activities of daily life (ADLs). The project will implement two visual working memory (VWM) training programs to explore the influence of VWM training on neglect symptoms as well as activities of daily life. Hypothesis: It is hypothesised that SWM training protocols will lead to improvements of neglect symptoms as well as improvement in ADLs. The project will develop a novel rehabilitation strategy for treating the neglect syndrome. Evidence from research in healthy participants employing video games to improve cognition along with research using working memory training protocols showing a broad range of benefits accruing to both trained and untrained tasks, suggests that the investigators approach has great potential to improve the core deficits of the neglect syndrome. Thus, WM training represents a promising avenue for rehabilitating neglect patients who demonstrate core deficits in both spatial attention and VWM to be highly interrelated functions.