PLoS ONE (Jan 2013)

Integration of motion responses underlying directional motion anisotropy in human early visual cortical areas.

  • Wouter Schellekens,
  • Richard J A Van Wezel,
  • Natalia Petridou,
  • Nick F Ramsey,
  • Mathijs Raemaekers

DOI
https://doi.org/10.1371/journal.pone.0067468
Journal volume & issue
Vol. 8, no. 6
p. e67468

Abstract

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Recent imaging studies have reported directional motion biases in human visual cortex when perceiving moving random dot patterns. It has been hypothesized that these biases occur as a result of the integration of motion detector activation along the path of motion in visual cortex. In this study we investigate the nature of such motion integration with functional MRI (fMRI) using different motion stimuli. Three types of moving random dot stimuli were presented, showing either coherent motion, motion with spatial decorrelations or motion with temporal decorrelations. The results from the coherent motion stimulus reproduced the centripetal and centrifugal directional motion biases in V1, V2 and V3 as previously reported. The temporally decorrelated motion stimulus resulted in both centripetal and centrifugal biases similar to coherent motion. In contrast, the spatially decorrelated motion stimulus resulted in small directional motion biases that were only present in parts of visual cortex coding for higher eccentricities of the visual field. In combination with previous results, these findings indicate that biased motion responses in early visual cortical areas most likely depend on the spatial integration of a simultaneously activated motion detector chain.