Alex Sharp scite author profile

Individuals with migraine tend to experience discomfort when viewing flickering stimuli. It has been suggested that one of the characteristics of migraine is a lack of habituation to repetitive visual stimuli, although findings can be mixed. Previous work has typically used similar visual stimuli (chequerboard) and only one temporal frequency. This study systematically varied the spatial and temporal characteristics of the visual stimulus, using steady‐state visual evoked potentials to assess the differences in amplitude between migraine and control group over consecutive blocks of stimulation. Twenty individuals with migraine and 18 control observers were asked to rate their visual discomfort after viewing sequences of flickering Gabor patches with a frequency of either 3 or 9 Hz across three different spatial frequencies (low 0.5 cpd; mid‐range 3 cpd; high 12 cpd). Compared to the control group, the migraine group showed a reduction in SSVEP responses with increased exposure, suggesting habituation processes are intact at 3‐Hz stimulation. However, at 9‐Hz stimulation, there was evidence of increased responses with increasing exposure in the migraine group in particular, which might suggest a build‐up of the response over repetitive presentations. Visual discomfort varied with spatial frequency, for both 3‐ and 9‐Hz stimuli, the highest spatial frequencies were the least uncomfortable compared to the low‐ and mid‐range spatial frequencies in both groups. This difference in SSVEP response behaviour, dependent on temporal frequency, is important to consider when researching the effects of repetitive visual stimulation in migraine and could give some indication of build‐up of effects leading to aversion to visual stimuli.

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Investigating Head Movements Induced by ‘Riloid’ Patterns in Migraine and Control Groups Using a Virtual Reality Display

O’Hare

Sharp

Dickinson

et al. 2018

Multisens. Res.

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Certain striped patterns can induce illusory motion, such as those used in op-art. The visual system and the vestibular system work together closely, and so it is possible that illusory motion from a visual stimulus can result in uncertainty in the vestibular system. This increased uncertainty may be measureable in terms of the magnitude of head movements. Head movements were measured using a head-mounted visual display. Results showed that stimuli associated with illusory motion also seem to induce greater head movements when compared to similar stimuli. Individuals with migraine are more susceptible to visual discomfort, and this includes illusory motion from striped stimuli. However, there was no evidence of increased effect of illusory motion on those with migraine compared to those without, suggesting that while motion illusions may affect discomfort judgements, this is not limited to only those with migraine.

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Alex Sharp

Improvement in visual perception after high-frequency transcranial random noise stimulation (hf-tRNS) in those with migraine: An equivalent noise approach

Effect of temporal frequency on habituation in migraine

Investigating Head Movements Induced by ‘Riloid’ Patterns in Migraine and Control Groups Using a Virtual Reality Display

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