Abstract
PURPOSE. In glaucoma, visual field defects in the left and right eye may be non-overlapping, resulting in an intact binocular visual field. In clinical management, these patients are often considered to have normal vision. However, visual performance also relies on binocular processing. The aim of this study was to evaluate binocular visual functions in glaucoma patients with intact binocular visual field, normal visual acuity, and stereoscopy.
METHODS. We measured in 10 glaucoma patients and 12 age-similar controls: (1) monocular and binocular contrast sensitivity functions (CSF) using a modified quick CSF test to assess binocular contrast summation, (2) dominance during rivalry, and (3) contrast ratio at balance point with a binocular phase combination test. A mirror stereoscope was used to combine the left and right eye image (each 10 degrees horizontally by 12 degrees vertically) on a display.
RESULTS. Area under the monocular and binocular CSF was lower in glaucoma compared to healthy (P < 0.001), but the binocular contrast summation ratio did not differ (P = 0.30). For rivalry, the percentage of time of mixed percept was 9% versus 18% (P = 0.056), the absolute difference of the percentage of time of dominance between the two eyes 19% versus 10% (P = 0.075), and the rivalry rate 8.2 versus 12.1 switches per minute (P = 0.017) for glaucoma and healthy, respectively. Median contrast ratio at balance point was 0.66 in glaucoma and 1.03 in controls (P = 0.011).
CONCLUSIONS. Binocular visual information processing deficits can be found in glaucoma patients with intact binocular visual field, normal visual acuity, and stereoscopy.
Original language | English |
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Article number | 9 |
Number of pages | 10 |
Journal | Investigative ophthalmology & visual science |
Volume | 62 |
Issue number | 12 |
DOIs | |
Publication status | Published - Sept-2021 |
Keywords
- binocular vision
- contrast summation
- rivalry
- phase combination
- glaucoma
- MOTION PERCEPTION
- GLOBAL MOTION
- SENSITIVITY
- DOMINANCE
- DIFFERENCE
- THRESHOLD
- NEURONS
- SIGNALS
- ACUITY