Color and Spatial Frequency Are Related to Visual Pattern Sensitivity in Migraine

• Published in: Headache Vol. 53; no. 7; pp. 1087 - 1103
• Main Authors: Shepherd, Alex J., Hine, Trevor J., Beaumont, Heidi M.
• Format: Journal Article
• Language: English
• Published: United States Blackwell Publishing Ltd 01.07.2013; Wiley Subscription Services, Inc
• Subjects: Adolescent; Adult; color; Color Perception - physiology; Female; Headaches; Humans; Male; Migraine; Migraine Disorders - diagnosis; Migraine Disorders - etiology; Migraine Disorders - physiopathology; pattern glare; Pattern Recognition, Visual - physiology; pattern sensitivity; Photic Stimulation - adverse effects; Photic Stimulation - methods; Space Perception - physiology; Time Factors; visual discomfort; Young Adult; pattern glare; visual discomfort; migraine; pattern sensitivity; color
• ISSN: 0017-8748; 1526-4610
• DOI: 10.1111/head.12062

Objective To assess the potential for particular colors to alleviate visual discomfort when people with migraine view repetitive geometric or striped patterns. Background Visual stimuli, such as flicker, glare, or stripes, can trigger migraine and headache. They can also elicit feelings of discomfort and aversion. There are reports that color can be used to decrease the experience of discomfort and reduce migraine frequency. Design/Methods Five sets of striped patterns (3, 12 cycles per degree [cpd]) were created using cardinal colors tailored to selectively stimulate the early visual pathways: achromatic (black/white), tritan (black/purple, black/yellow), protan/deutan (black/red, black/green). All had the same high luminance contrast (0.9 Michelson contrast). Twenty‐eight migraine (14 migraine with aura, 14 migraine without aura) and 14 control participants rated the discomfort and described the distortions seen in these patterns. They were also assessed for visual migraine/headache triggers, contrast sensitivity, color vision, acuity, stereopsis, visual discomfort from reading, and dyslexia. Results In the migraine groups, a comparable number of illusions were seen with the 3 and 12 cpd achromatic gratings, whereas in the control group the greatest number was seen with the 3 cpd grating. In the migraine groups only, all 4 colors reduced, to some extent, the number of illusions and 2 decreased the discomfort, particularly for the 12 cpd gratings. There were significant group differences for contrast sensitivity, reported visual migraine/headache triggers, and the visual discomfort scale. There were a few significant correlations between the different measures, notably between the achromatic visual discomfort measures and reports of visual migraine triggers. Conclusions Color, independent of luminance or particular color contrasts, can have therapeutic effects for people with visually triggered migraine as it can reduce the number of perceived illusions when viewing stripes or text. The effect was not color‐specific and was greatest for the 12 cpd gratings. Given the significant associations between the achromatic discomfort measures and reports of visual triggers, and the lack of significant associations between the chromatic discomfort measures and reports of visual triggers, further research is recommended to explore the potential to reduce the number of visually triggered migraines with color in addition to alleviating visual discomfort.