Robin Laycock scite author profile

Evidence from human and primate studies suggests that fast visual processing may utilize signals projecting from primary visual cortex (V1) through the dorsal stream, to area V5/MT+ or beyond and subsequently back into V1. This coincides with the arrival of parvocellular signals en route to the ventral pathway and infero-temporal cortex. Such evidence suggests that the dorsal stream region V5/MT+ is activated rapidly through the traditional hierarchical pathway and also via a less-well-established direct signal to V5/MT+ bypassing V1. To test this, 16 healthy humans underwent transcranial magnetic stimulation (TMS) of V1/V2 and V5/MT+ while performing a motion-direction detection task. A three-alternate forced-choice design (left/right motion, stationary) allowed analysis of the quality of errors made, in addition to the more usual performance measures. Transient disruption of V1/V2 and V5/MT+ significantly reduced accuracy when TMS was applied at or near motion onset. Most participants also showed disrupted performance with TMS application over V1/V2 approximately 125 ms post motion onset, and significantly reduced accuracy at 158 ms with V5/MT+ stimulation. The two periods of disruption with V1/V2 TMS are suggestive of feedforward/feedback models, although the earlier period of disruption has not been reported in previous TMS studies. Very early activation of V5/MT+, evidenced by diminished accuracy and reduced perception of motion after TMS may be indicative of a thalamic-extrastriate pathway in addition to the traditionally expected later period of processing. A profound disruption of performance prestimulus onset is more likely to reflect disruption of top-down expectancy than disruption of visual processing.

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A role for the ‘magnocellular advantage’ in visual impairments in neurodevelopmental and psychiatric disorders

Laycock

Crewther

2007

Neuroscience & Biobehavioral Reviews

126

106

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A normative and reliability study for the Raven’s Coloured Progressive Matrices for primary school aged children from Victoria, Australia

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Kiely

Crewther

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Personality and Individual Differences

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A Chat(GPT) about the future of scientific publishing

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Brain, Behavior, and Immunity

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Towards an understanding of the role of the ‘magnocellular advantage’ in fluent reading

Laycock

Crewther

2008

Neuroscience & Biobehavioral Reviews

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Robin Laycock

Evidence for Fast Signals and Later Processing in Human V1/V2 and V5/MT+: A TMS Study of Motion Perception

A role for the ‘magnocellular advantage’ in visual impairments in neurodevelopmental and psychiatric disorders

A normative and reliability study for the Raven’s Coloured Progressive Matrices for primary school aged children from Victoria, Australia

A Chat(GPT) about the future of scientific publishing

Towards an understanding of the role of the ‘magnocellular advantage’ in fluent reading

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