Assessment of novel binocular colour, motion and contrast tests in glaucoma

Rauscher, F. G., Chisholm, C. M., Edgar, D. F & Barbur, J. L. (2013). Assessment of novel binocular colour, motion and contrast tests in glaucoma. Cell and Tissue Research, 353(2), pp. 297-310. doi: 10.1007/s00441-013-1675-x

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Abstract

The effects of glaucoma on binocular visual sensitivity for the detection of various stimulus attributes are investigated at the fovea and in four paracentral retinal regions. The study employed a number of visual stimuli designed to isolate the processing of various stimulus attributes. We measured absolute contrast detection thresholds and functional contrast sensitivity by using Landolt ring stimuli. This psychophysical Landolt C-based contrast test of detection and gap discrimination allowed us to test parafoveally at 6 ° from fixation and foveally by employing interleaved testing locations. First-order motion perception was examined by using moving stimuli embedded in static luminance contrast noise. Red/green (RG) and yellow/blue (YB) colour thresholds were measured with the Colour Assessment and Diagnosis (CAD) test, which utilises random dynamic luminance contrast noise (± 45 %) to ensure that only colour and not luminance signals are available for target detection. Subjects were normal controls (n = 65) and glaucoma patients with binocular visual field defects (n = 15) classified based on their Humphrey Field Analyzer mean deviation (MD) scores. The impairment of visual function varied depending on the stimulus attribute and location tested. Progression of loss was noted for all tests as the degree of glaucoma increased. For subjects with mild glaucoma (MD −0.01 dB to −6.00 dB) significantly more data points fell outside the normal age-representative range for RG colour thresholds than for any other visual test, followed by motion thresholds. This was particularly the case for the parafoveal data compared with the foveal data. Thus, a multifaceted measure of binocular visual performance, incorporating RG colour and motion test at multiple locations, might provide a better index for comparison with quality of life measures in glaucoma.

Item Type: Article
Uncontrolled Keywords: Science & Technology, Life Sciences & Biomedicine, Cell Biology, CELL BIOLOGY, Glaucoma, Visual function, Colour vision, Motion detection, Contrast, Human, OPEN-ANGLE GLAUCOMA, QUALITY-OF-LIFE, VISUAL-FIELD LOSS, BLUE-ON-YELLOW, OCULAR HYPERTENSION, CHROMATIC MECHANISMS, AUTOMATED PERIMETRY, VISION, PERCEPTION, SENSITIVITY
Subjects: R Medicine > RE Ophthalmology
Divisions: School of Health Sciences > Department of Optometry & Visual Science
URI: http://openaccess.city.ac.uk/id/eprint/3294

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