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Establishing New Treatment Approaches for Amblyopia: Perceptual Learning and Video Games

Improving Normal and Amblyopic Vision With Video Games and Perceptual Learning

Status
Recruiting
Phases
NA
Study type
Interventional
Source
ClinicalTrials.gov
Registry ID
NCT05522972
Enrollment
180
Registered
2022-08-31
Start date
2022-09-13
Completion date
2029-08-31
Last updated
2025-12-16

For informational purposes only — not medical advice. Sourced from public registries and may not reflect the latest updates. Terms

Conditions

Amblyopia

Keywords

perceptual learning, video games, visual plasticity, amblyopia treatment, pathophysiology of amblyopia, vision training, stereoacuity, strabismus

Brief summary

Amblyopia, a developmental abnormality that impairs spatial vision, is a major cause of vision loss, resulting in reduced visual acuity and reduced sensitivity to contrast. This study uses psychophysical measures to study neural plasticity in both adults and children with amblyopia.

Detailed description

Amblyopia, a developmental abnormality that impairs spatial vision, is a major cause of vision loss, resulting in reduced visual acuity and reduced sensitivity to contrast. Our previous findings (see Publications) show that the adult amblyopic brain is still plastic and malleable, suggesting that active approach is potential useful in treating amblyopia.The goal of this project is to assess the limits and mechanisms of neural plasticity in both normal and amblyopic spatial vision. This study uses psychophysical measures to study neural plasticity in both adults and children with amblyopia. Research participants will be asked to practice a visual discrimination task (perceptual learning) or to play video games with the amblyopic eye for a period of time. A range of visual functions will be monitored during the course of treatment.

Interventions

BEHAVIORALVideo Game Vision Training

A new approach for improving amblyopic vision using video games

BEHAVIORALPerceptual Learning

A new approach for improving amblyopic vision with perceptual learning

BEHAVIORALOcclusion Therapy

Conventional treatment for amblyopia

Sponsors

Nova Southeastern University
Lead SponsorOTHER

Study design

Allocation
RANDOMIZED
Intervention model
CROSSOVER
Primary purpose
TREATMENT
Masking
NONE

Eligibility

Sex/Gender
ALL
Healthy volunteers
Yes

Inclusion criteria

* adults and children with normal vision or amblyopia * amblyopia: interocular VA difference of 0.1 logMAR or more

Exclusion criteria

* any ocular pathological conditions, nystagmus

Design outcomes

Primary

MeasureTime frameDescription
Change in visual acuity before and after the intervention9 monthsVisual acuity, the gold standard for vision testing, will be measured. Participants will be asked to read letters on a LogMAR letter chart. The smallest letters that can be read correspond to visual acuity (e.g., Snellen acuity of 20/20, letter-stroke width = 1 minute of arc).
Change in stereoacuity before and after the intervention9 monthsStereoacuity will be measured psychophysically using a new stereoacuity function test (1.25, 2.5, 5, 10, 15, & 20 cycles per degree) developed in our previous studies (Li et al 2016). A custom-built 4-mirror haploscope will be used to present a stereogram to each eye. Stereoacuity is the smallest stereo disparity that can be seen in binocular vision (in the unit of seconds of arc, arcsec). The conventional stereoacuity tests (including Randot Stereoacuity Test, Stereofly Test & Preschool Stereo Test) will also be used to measure stereoacuity. Participants will be asked to wear a pair of 3D glasses and to identify the target 3D pictures at various 3D levels. The smallest 3D disparities that can be seen correspond to stereoacuity (e.g. normal range of stereoacuity: 50 seconds of arc or better).

Secondary

MeasureTime frameDescription
Change in contrast sensitivity before and after the intervention9 monthsContrast sensitivity, the ability to detect low contrast / brightness, will be measured psychophysically for a range of spatial frequencies (1.25, 2.5, 5, 10, & 20 cycles per degree). Visual stimuli at different contrast levels will be displayed on a monitor screen. The smallest detectable stimulus contrast level will be measured in the unit of cd/m2.
Change in positional (or Vernier) acuity before and after the intervention9 monthsPositional acuity, the ability to detect a subtle positional offset between visual stimuli, will be measured psychophysically. Visual stimuli with different amount of positional offsets will be displayed on a monitor screen. The smallest detectable stimulus offset will be measured as position acuity, in the unit of seconds of arc.

Countries

United States

Contacts

Primary ContactRoger W Li, OD, PhD
wli@nova.edu954-262-1436

Outcome results

None listed

Source: ClinicalTrials.gov · Data processed: Feb 4, 2026