View clinical trials related to Amblyopia.
Filter by:The goal of this diagnostic test is to compare the results of refraction and amblyopia risks between using 2WIN-S portable refractor and cycloplegic refraction in pre-school age. All participants will be tested by 2WIN-S portable refractor.
In this research we will investigate the distribution and evolution of amblyopia risk factors and other refractive errors in children younger than 3 years of age. The significance and magnitude of current global evolutions in ARF and refractive errors will be verified to update current guidelines and practices. Better insight in associated factors of amblyopia risk factors will contribute to current understanding of amblyopia.
The aim is to validate the new GoCheck Kids application as automatic eye screener for preschool children (<3 years of age) at 'Child and Family' agency. Sensitivity, specificity, positive and negative predictive value of the GoCheck Kids screening tool are the endpoints of this study.
Screening A child is considered for the study after undergoing a standard of care and study specific eye examinations (by a study investigator as part of standard of care) that identifies amblyopia appearing to meet the eligibility criteria. The study will be discussed with the child's parent(s) or guardian(s) (referred to subsequently as parent(s)). Parent(s) who express an interest in the study will be given a copy of the informed consent form to read. Written informed consent / assent must be obtained from a parent and child prior to performing any study-specific procedures that are not part of the child's routine care. On screening visit, eligibility assessment, medical history,Demographic data, Refraction and Cycloplegia, Demonstration suitability using the CureSight, ATS Diplopia Questionnaire, Symptom Survey Distance VA Testing , Ocular Alignment Testing, Near VA Testing, Stereoacuity Testing-Randot, Stereoacuity Testing- Titmus Fly, Eye movement exams (optional), Contrast sensitivity (optional), Reading rest (optional) Randomization The EDC and data management will construct a Master Randomization List using a permutated block design stratified by initial visual acuity in the amblyopic eye and age which will specify the order of treatment group assignments. Randomization will be managed directly by the eCRF platform. All eligible subjects enrolled in the study will be followed for 16 weeks. Subjects will be randomly assigned in a 1:1 allocation to one of the following treatment groups for 16 weeks: Binocular treatment 90 minutes per day, 5 days per week Patching group: Patching 2 hours per day, 7 days per week. Follow up visits 1-week phone call (4 to 8 days from randomization) to inquire about issues with the CureSight system (if applicable) and to encourage compliance with treatment for all groups (to be completed by site personnel) Visit 2: 4 weeks ± 1 week Visit 3: 8 weeks ± 1 week Visit 4: 12 weeks ± 1 week Visit 5: 16 weeks ± 1 week (primary endpoint) Unmasking of primary outcome results For each individual subject, clinician's decision regarding: Treatment or control cessation and follow-up; or, Control (patching) continuation with same modality (more improvement desired); or, Cross-over to a different treatment (avoid missing the optimal window of opportunity in young age) •Optional Visit 6: 28 weeks ± 1 week (exploratory outcome, including retainment of improvement; and additional exploratory outcomes
Amblyopia is the most common developmental vision disorder in children, caused by abnormal visual experience in early life, especially a difference in refraction between the eyes, a misalignment of the eye axes, a combination of both. Besides a significant reduced visual acuity, the patients show deficits in 3D vision and functional vision impairment like reduced reading speed, selective attention or motor control skills. The gold standard treatment for amblyopia, occlusion therapy, can lead to relapses or residual amblyopia (i.e., amblyopia that persist into adulthood). The current study aims to test the efficacy of a novel home-based child-friendly rehabilitation program for amblyopia, Vivid Vision Home, involving playing serious videogames on a virtual reality (VR) headset at home. The VR training will be compared to standard care (wearing a spectacle correction) and to age-matched typically developing individuals. A cross-over design will be used so that each participant will receive both treatments (games, spectacles). There is a growing number of studies showing benefits of binocular stimulation for visual acuity and stereovision, but provided mainly by level III studies, with a need for rigorous level I or II studies, using more engaging therapies, to confirm or refute the efficacy of this approach as an adjunct or replacement for current amblyopia treatments. Embedding binocular stimulation in engaging, immersive serious games delivered on VR headsets at home, as implemented by Vivid Vision Home, can address this question.
In a randomized controlled trial, we will establish whether early glasses for high refractive error at age one reduce the development of amblyopia between age one and four. As a secondary outcome early literacy will be compared in groups with and without glasses.
Objectives. To develop a new treatment for amblyopia using a perceptual learning approach. Hypothesis to be tested. Our proposed experiments are designed to investigate whether practicing a grating detection task can improve vision in patients with amblyopia. Design and subjects. A total of 36 patients with amblyopia will be randomized allocated into two intervention groups: Group 1, perceptual learning therapy. Group 2, occlusion therapy. A control group comprising of 18 subjects with normal vision will be recruited for comparison. A battery of tests will be used to assess a range of visual functions before and after the treatment intervention. Study instruments. Grating acuity testing system Interventions. We have established a clinical protocol for acuity training. On each trial, a properly oriented stimulus will be presented randomly at one of the four locations on a flat monitor screen. The visual task is to indicate the location of the stimulus. Participants will be required to undertake 20 one-hour sessions of training. Main outcome measures. Resolution acuity, visual acuity, contrast sensitivity function
Photorefractive keratectomy (PRK) with excimer laser has been used successfully to treat myopia, hyperopia, and astigmatism in adults for over 35 years. Children with high refractive errors that go untreated will develop severe amblyopia. PRK can normalize high refractive errors and potentially improve the visual acuity in affected children. The purpose of this study is to investigate whether children with high anisometropia or isoametropia with amblyopia that are nonresponsive to standard therapy and receive PRK develop better longterm visual acuity.
Amblyopia, or 'lazy eye', is the reduction in vision usually in one eye, due to abnormal visual development without organic cause. It is a preventable and leading cause of monocular vision loss (prevalence of around 3%) and increases lifetime risk of bilateral visual impairment from 10% in the general population, to 18% in amblyopes. In the UK, vision screening in children aims to detect amblyopia and other undiagnosed visual conditions. Laboratory research suggest that amblyopia could be better detected by modifying standard clinical vision tests to enhance and quantify "crowding". Crowding is the negative effect that surrounding features have on the visibility of a target. Crowding distance and crowding magnitude are considerably greater in amblyopic eyes than in normal healthy eyes. Modifications that should lead to improved amblyopia detection are 1) place letters closer together on a vision chart, 2) define letters by contrast, rather than luminance, and 3) use a new thinner font in the form of numbers, to allow crowding distance in central vision to be measured. In this project, these modifications will be tested in amblyopic children for the first time. Amblyopic children aged 3 to 11 years (n=32) will be recruited from ACPOS (Addenbrooke's Community Paediatric Ophthalmology Service) at ARU. They will have their vision measured with the three modified tests as well as an uncrowded test. The child will view letters and numbers on a computer screen and respond (verbally or by indicating their choice on a matching card). Testing is fun and game-like with breaks for rewards. Results will be compared to standard vision measurement (SLT: Sonksen LogMAR Test) from the child's ACPOS visit. Amblyopic data will be compared to control data from normal healthy children aged 3 to 11 years (n=200), and age-matched children with normal vision (n=16) from ACPOS (false referrals from school screening).
Amblyopia is an impairment in spatial vision caused by asymmetry in the quality of visual input across the two eyes during childhood. It is difficult to treat in adulthood because the visual system becomes less "plastic" (able to learn) with age. The purpose of this study is to determine whether five to ten days of visual deprivation--living in complete darkness--can enhance plasticity in the visual cortex and thereby facilitate the learning that is needed to recover visual function in amblyopic adults.