Amblyopia and Stereoptic Games for Vision (AMBER)

Amblyopia is the most common developmental vision disorder in children, affecting 1-5% of the population in developed countries. It mostly results from a difference in refraction between the eyes (anisometropia), a misalignment of the eye axes (strabismus), a combination of both, or visual deprivation (due to congenital cataract, e.g.). Besides a significant reduced visual acuity, the patients show binocular dysfunction leading to functional vision impairment like reduced reading speed, selective attention or motor control skills.

Whilst the disorder is commonly diagnosed around the age of 3-5 years, up to 50% of children will be left with residual amblyopia mainly due to a late diagnosis and start of treatment, poor compliance with treatment, not diagnosed or considered eccentric fixation. The gold standard treatment consists of the occlusion therapy, patching the dominant/healthy eye for 2-6 hours/day every day for several months up to years. However, an eye patch and the demand to use the weaker eye for visual tasks is challenging and so poorly complied with by pediatric patients. These problems in compliance lead to relapses (14-25%) or residual amblyopia (i.e., poor vision that persist into adulthood) creating multiple medical and social problems for the patients (including cognitive and emotional processing), their families and the society.

Serious videogames delivered on tablets have been developed with a more engaging strategy to effectively treat amblyopia. These games focus on binocular stimulation, which targets visual acuity of the amblyopic eye and three-dimensional vision (stereovision), through the presentation of dichoptic images. Such dichoptic image presentation consists of showing a different but complementary image in each eye so that the task can only be performed if information across eyes is combined. Binocular stimulation signifies that both eyes are challenged but the devices are programmed in a way so that the weaker eye is primarily performing a given visual task.

The objective of this project is to improve visual function of the amblyopic eye using image-fusion and stereopsis through playing videogames in a Virtual Reality (VR) environment. Also, besides the improvements of visual acuity and potentially stereovision, such VR-based serious games interventions can positively impact other aspects like cognitive and motor functions. The visual deficits seen in amblyopia are thought to be related to problems in attending to visual task-relevant objects, suggesting that such deficits in selective-attentional skills can hamper vision recovery. Similarly, poor stereovision will be reflected in deficits in motor control skills as seen in individuals with amblyopia. Our VR-based serious games training will have similar ingredients to those that are supposed to improve attentional skills and may have a positive impact on motor control skills. The VR-based technology developed by Vivid Vision to be used in the present study is FDA approved and CE (Conformité Européene) certified. They are offering virtual reality videogames with headsets, which may increase the beneficial treatment effect by a reduction of the misperception of 3-dimensional movement.

The present project aims to test the described benefit in a home-based, child-friendly rehabilitation program involving serious video games in a virtual reality environment in children, adolescents, and young adults with residual amblyopia, compared to standard care (refractive correction) and to age-matched healthy individuals. The study has been designed as a blinded randomized cross-over trial to increase the available evidence allowing for a qualified evaluation of the benefit of binocular stimulation and for demonstrating a beneficial effect also in residual amblyopia in childhood and in older patients.