Visuospatial memory computations during whole-body rotations in roll

doi:10.1152/jn.00018.2005

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Visuospatial memory computations during whole-body rotations in roll

Stan Van Pelt¹^*, Jan A. Van Gisbergen², and W. Pieter Medendorp³

¹ Nijmegen Institute for Cognition and Information, Radboud University Nijmegen, Nijmegen, The Netherlands
² Department of Biophysics, Radboud University Nijmegen, Nijmegen, The Netherlands
³ Nijmegen Institute for Cognition and Information, Radboud University Nijmegen, Nijmegen, The Netherlands; FC Donders Centre for Cognitive Neuroimaging, Radboud University Nijmegen, Nijmegen, The Netherlands

^* To whom correspondence should be addressed. E-mail: s.vanpelt{at}nici.ru.nl.

We used a memory-saccade task to test whether the location ofa target, briefly presented before a whole-body rotation inroll, is stored in egocentric or in allocentric coordinates.To make this distinction, we exploited the fact that subjects,when tilted sideways in darkness, make systematic errors whenindicating the direction of gravity (an allocentric task), eventhough they have a veridical percept of their self-orientationin space. We hypothesized that, if spatial memory is coded allocentrically,these distortions affect the coding of remembered targets andtheir readout after a body rotation. Alternatively, if codingis egocentric, updating for body rotation becomes essentialand errors in performance should be related to the amount ofintervening rotation. Subjects (N=6) were tested making saccadesto remembered world-fixed targets after passive body tilts.Initial and final tilt angle ranged between -120° CCW to120° CW. The results showed that subjects made large systematicdirectional errors in their saccades (up to 90°). Theseerrors did not occur in the absence of intervening body rotation,ruling out a memory degradation effect. Regression analysisshowed that the errors were closely related to the amount ofsubjective allocentric distortion at both the initial and finaltilt angle, rather than to the amount of intervening rotation.We conclude that the brain uses an allocentric reference frame,possibly gravity-based, to code visuospatial memories duringwhole-body tilts. This supports the notion that the brain candefine information in multiple frames of reference, dependingon sensory inputs and task demands.

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