View clinical trials related to Vision Disorders.
Filter by:A greater understanding of plasticity after central vision loss can inform new therapies for treating low vision and has the potential to benefit millions of individuals suffering from low vision. The treatment of low vision is particularly relevant to the mission of the NEI to support research on visual disorders, mechanisms of visual function, and preservation of sight. The comparison of different training and outcome factors is in line with the NIMH RDOC framework and studies in an aging population are consistent with the mission of the NIA.
A novel computerized visual acuity test was developed and tested on both healthy persons and patients with ocular conditions. Visual acuity outcomes of the computerized test will be compared to the Early Treatment Diabetic Retinopathy Study (ETDRS) in measures of reproducibility, accuracy and numbers of questions.
A greater understanding of plasticity after central vision loss can inform new therapies for treating low vision and has the potential to benefit millions of individuals suffering from low vision. The treatment of low vision is particularly relevant to the mission of the National Eye Institute (NEI) to support research on visual disorders, mechanisms of visual function, and preservation of sight. The comparison of different training and outcome factors is in line with the National Institute of Mental Health (NIMH) Research Domain Criteria (RDOC) framework and studies in an aging population are consistent with the mission of the National Institute on Aging (NIA).
Our study examines the effect of sensory integration training on sensory, motor and oculomotor skills in infants with cortical vision impairment .
One of the most challenging tasks for blind and visually impaired individuals is navigation through a complex environment. The goal of the present multidisciplinary study is to increase spatial-cognition abilities in people who are blind or visually impaired through training with the previously-developed Cognitive-Kinesthetic Rehabilitation Training to improve navigation, and to investigate the resultant neuroplastic brain reorganization through multimodal brain imaging. In accordance with National Eye Institute (NEI) strategic goals, this multidisciplinary project will promote the development of well-informed new approaches to navigational rehabilitation, memory enhancement and cross-modal brain plasticity to benefit 'cutting edge' fields of mobile assistive technologies, vision restoration and memory facilitation for the aging brain.
The support for siblings of children with disabilities is scarce and fragmented, even though studies have shown that these siblings can benefit from support. Although some interventions for siblings have been developed, these are costly and time-consuming and the effects have not been researched thoroughly with randomized controlled trials. This study will investigate the effectiveness of the newly developed serious game 'Broodles' in improving the quality of life and psychosocial well-being of healthy siblings (aged 6-9 years) of children with intellectual disability (ID) and/or visual impairment (VI). The effectiveness of the serious game will be examined in a randomized controlled trial (RCT) with a pre-test (T0), post-test (T1) and follow-up (T2). There will be two groups, namely an experimental group playing the serious game and a waitlist control group. Quantitative and qualitative measures will be used including questionnaires, drawings and open-ended questions. Both the sibling and one parent will complete the assessments. The serious game, named 'Broodles', is a psychological intervention that addresses how to handle thoughts and emotions concerning several important issues in the lives of siblings. The game has 8 levels that take approximately 20 minutes to play. In addition to the serious game, children make offline worksheets and parents receive tips and information on how to support their child. The primary study parameters are quality of life and sibling adjustment to and perceptions of the disability of the brother or sister. Secondary study parameters are different aspects of psychosocial well-being, including self-esteem, experienced social support, sibling relationship, coping skills, parent-child relationship, and social validity. It is expected that the participants in the experimental conditions will benefit from playing the game, namely their quality of life and psychosocial well-being is expected to improve.
To assess repeatability of electroretinogram and visual evoked potential in clinical practice
Age-related macular degeneration (AMD) is a complex eye disorder and the most common macular disease affecting millions of aged people in the developed countries, with an estimation that the number of AMD patients will be increased to 196 million in 2020, 288 million in 2040. Vision loss, central scotomas and metamorphopsia are the hallmark signs in patients with macular diseases. Metamorphopsia can be defined as a deformation of seen rectilinear lines due to photoreceptor separation/location and it is a typical but not exclusive sign of retinal disease. The most effective method of treating wet AMD is currently the anti-vascular endothelial growth factor intravitreal injections (anti-VEGF). A further concern is the enormous costs and restriction of human resources that make periodic imaging unfeasible. Therefore, in patients with AMD treated by intravitreal anti-VEGF, monitoring with sensitive psychophysical tools could advance the time for diagnosis of CNV reactivation and enhance the outcome of treatment. For assessment of the visual function, visual acuity and Amsler grid have been the gold standard. The Amsler grid is a simple and noninvasive test effortlessly understood by the patient, consisting of evenly spaced vertical and horizontal lines outlining 400 square, it has been widely adopted as a subjective test for metamorphopsia. However, it also produces high false-negative rate. Moreover, the answer to this test is dichotomous: straight or crooked lines and does not allow for quantification thus, it is problematic to monitor the visual function along the course and to evaluate the effectiveness of treatment with anti-VEGF agents. The M-chart (Inami Co., Tokyo, Japan) is a diagnostic device developed by Matsumoto to quantify the grade of metamorphopsia in patients with various types of macular diseases. The usefulness of M-charts has been already demonstrated in different retinal diseases from macular pucker to BRVO. The aim of this study is to compare the traditional Amsler grid and the M-Charts in evaluating metamorphopsia in patients suffering from wet AMD before and after Anti VEGF injection; and to match it with OCT results.
The goal of this project is to quantify and computationally model the perceptual experiences of Argus II retinal prosthesis patients. The investigators will produce visual percepts in patients either by directly stimulating electrodes or by asking them to view a computer or projector screen and using standard FDA-approved stimulation protocols (as is standardly used for their devices) to convert the computer or projector screen image into pulse trains on their electrodes. Performance of patients will be compared to that of sighted control subjects viewing a simulation of the vision generated by Argus II in virtual reality.
In their day to day, persons do from simple to more or less complicated tasks and activities (ie: stand from a chair, open a door, shopping, read, drive, play chess, remind an appointment...). Such ability to do things is called capacity. Intrinsic capacity is the combination of all the physical and mental capacities that a person has, and reach its maximum in the early adulthood and then declines as the person ages. Each kind of capacity declines at her own speed (which may be faster or slower according to each person lifestyle), and once drops below a threshold may lead to a reduction in quality of life and loss of autonomy. Nevertheless there are some actions that may be effective to prevent or slow such decline. To do so the investigators have design an intervention that combines several things of different nature (what is know as a complex intervention) called AMICOPE. The AMICOPE intervention is performed in the community or in primary care centers through 12 weekly group sessions of 2 h 30 min which combine structured and adapted physical activity, group dynamics to promote social support and address loneliness, social isolation and depressive symptoms, and dietary advice. Our study is addressed to persons over 70 with light problems in mobility, nutrition or mood state. The purpose of this study is to assess if the AMICOPE intervention is better than the standard advice to follow healthy lifestyles to improve or maintain self-perceived health, mobility, nutritional status an psychological wellbeing.