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Clinical Trial Summary

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.


Clinical Trial Description

An asymmetry in the visual input across the eyes early in postnatal life causes amblyopia, the most common basis of uni-ocular blindness in humans. If uncorrected, amblyopia results in the unaffected eye controlling the binocular visual cortex, while the ability of the affected eye to stimulate cortical neurons may weaken to the point of functional blindness. Previous attempts to recover vision in adult amblyopes have had limited success, and the investigators propose this is due in large part to the significant reduction of synaptic plasticity that occurs during cortical development. The investigators propose that optimal recovery from amblyopia in adulthood is a two stage process that requires 1) the reactivation of plasticity in the adult amblyopic cortex (permissive step) and 2) focused visual experience to stimulate perceptual learning (instructive step).

The Elizabeth Quinlan lab at the University of Maryland has recently shown that binocular visual deprivation in adulthood enhances synaptic plasticity in the adult cortex of experimental animals in as little as three days. In addition, binocular visual deprivation prior to repetitive visual experience stimulates the recovery of spatial acuity in an animal model of deep amblyopia. Here the investigators propose to translate this finding to the treatment of amblyopia in humans. The investigators propose to use binocular visual deprivation to promote synaptic plasticity in the amblyopic visual cortex, followed by visual perceptual learning through vision therapy homework, to stimulate the recovery of visual function. While visual perceptual learning has been previously shown to enhance visual function in amblyopic adults, the gains are slow and modest. The investigators predict that "pre-treatment" of the amblyopic visual system with binocular visual deprivation will enhance the magnitude and/or time course of learning-induced recovery from amblyopia.

Twenty-four adult amblyopes, age 18 or older, will be recruited for the study. The investigators will exclude amblyopes with strabismus history because the treatment has not been designed to improve binocular alignment (motor fusion). Thus, amblyopes will be form deprivation amblyopes, especially form deprivation due to anisometropia, with moderate (20/30 to 20/80) or severe (20/100 to 20/400) acuity in the affected eye. Screening will include an extensive application, telephone interview of two personal references, comprehensive visual examination, and in-person interview.

Participants will be fitted with new ophthalmics if indicated and followed for several weeks to allow their amblyopia to stabilize. Their visual function will be assessed behaviorally and also by direct measurement of neural activity using visually evoked potentials (VEPs). Participants will be assigned to one of three groups. One group will be sequestered for zero days, one for five continuous days, and one for ten continuous days. Participants in the five or ten day sequestration groups will undergo sequestration in groups of two, three, or four. After sequestration visual function will again be assessed, both behaviorally and with VEP. All participants will then undergo 8 weeks (3 weeks before, 5 weeks after) of vision treatment for amblyopia, based on video game play. Vision testing will occur regularly during this period and for 10 months thereafter. A third VEP scan will be done at the end of the 8 week treatment period.

If successful, this work would transform therapy for adult amblyopia, and focus attention on the importance of incorporating methods to enhance synaptic plasticity as an adjunct to treatment. In addition, the insight gained from this work could be extended to strabismus, eye movement control disorders, and the restoration of optimal neural function after damage from stroke or other traumatic brain injury. The proposed experiment will also pioneer the use of binocular visual deprivation in human amblyopes, and develop standards for implementation, participant sequestration and care. ;


Study Design


Related Conditions & MeSH terms


NCT number NCT02685423
Study type Interventional
Source State University of New York College of Optometry
Contact
Status Active, not recruiting
Phase N/A
Start date December 2016
Completion date December 31, 2019

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