Delayed Response to Animate Implied Motion in Human Motion Processing Areas

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(Journal of Cognitive Neuroscience. 2006;18:158-168.)
© 2006 The MIT Press

Delayed Response to Animate Implied Motion in Human Motion Processing Areas

Jeannette A. M. Lorteije¹, J. Leon Kenemans¹, Tjeerd Jellema¹^,2, Rob H. J. van der Lubbe¹, Frederiek de Heer¹ and Richard J. A. van Wezel¹

¹ Helmholtz Research Institute, Utrecht University, The Netherlands, ² Hull University, United Kingdom

Reprint requests should be sent to Richard J. A. van Wezel, Department of Functional Neurobiology, Utrecht University, Padualaan 8, 3584CH Utrecht, The Netherlands, or via e-mail: R.J.A.vanWezel{at}bio.uu.nl.

Viewing static photographs of objects in motion evokes higherfMRI activation in the human medial temporal complex (MT+) thanlooking at similar photographs without this implied motion.As MT+ is traditionally thought to be involved in motion perception(and not in form perception), this finding suggests feedbackfrom object-recognition areas onto MT+. To investigate thishypothesis, we recorded extracranial potentials evoked by thesight of photographs of biological agents with and without impliedmotion. The difference in potential between responses to pictureswith and without implied motion was maximal between 260 and400 msec after stimulus onset. Source analysis of this differencerevealed one bilateral, symmetrical dipole pair in the occipitallobe. This area also showed a response to real motion, but approximately100 msec earlier than the implied motion response. The longerlatency of the implied motion response in comparison to thereal motion response is consistent with a feedback projectiononto MT+ following object recognition in higher-level temporalareas.

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