September 2024
Volume 24, Issue 10
Open Access
Vision Sciences Society Annual Meeting Abstract  |   September 2024
Order-Dependent Functional Brain Connectivity in a Cue-Separation Grasp Task
Author Affiliations & Notes
  • Gaelle Luabeya
    Centre for Vision Research, York University, Canada
    Departments of Biology, York University, Canada
  • Ada Le
    Centre for Vision Research, York University, Canada
    Department of Psychology, York University, Canada
  • Lina Musa
    Centre for Vision Research, York University, Canada
    Department of Psychology, York University, Canada
  • Amirhossein Ghaderi
    Centre for Vision Research, York University, Canada
  • Simona Monaco
    Center for Mind/Brain Sciences, University of Trento, Italy
  • Erez Freud
    Centre for Vision Research, York University, Canada
    Departments of Biology, York University, Canada
    Department of Psychology, York University, Canada
    Department of Kinesiology & Health Sciences, York University, Canada
  • J. Douglas Crawford
    Centre for Vision Research, York University, Canada
    Departments of Biology, York University, Canada
    Department of Psychology, York University, Canada
    Department of Kinesiology & Health Sciences, York University, Canada
  • Footnotes
    Acknowledgements  The research was funded by the Canadian Institutes for Health Research and Canada Research Chair
Journal of Vision September 2024, Vol.24, 1008. doi:https://doi.org/10.1167/jov.24.10.1008
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      Gaelle Luabeya, Ada Le, Lina Musa, Amirhossein Ghaderi, Simona Monaco, Erez Freud, J. Douglas Crawford; Order-Dependent Functional Brain Connectivity in a Cue-Separation Grasp Task. Journal of Vision 2024;24(10):1008. https://doi.org/10.1167/jov.24.10.1008.

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      © ARVO (1962-2015); The Authors (2016-present)

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Abstract

Prehension involves location-dependent reach transport and orientation-dependent grasp components. To understand how the brain integrates object location and orientation for grasp, we studied how the order of transport / grasp cues influences whole brain functional connectivity. We collected BOLD signal data from 12 participants in an Event-related fMRI Experiment. Participants were instructed to reach and grasp a cube illuminated to the left or right of midline (Location Cue: L) and a verbal instruction to orient the hand for vertical or horizontal grasp (Orientation Cue: O). The order of these cues (LO vs. OL) varied randomly. fMRI data were analyzed separately based on three predictors: Delay 1 (between the two cues), Delay 2 (between the 2nd cue and go signal), and an Action Phase. Graph Theory Analysis was performed based on 200 regions of interest (nodes) at each phase. Preliminary analysis based on 3 participants: During Delay 1, nodes coalesced into three modules: 1) a central parietofrontal strip approximating primary somatomotor cortex, 2) two more anterior-posterior premotor / visuomotor parietofrontal regions, and 3) a ring of cortex skirting 1+2 but with no occipital/temporal involvement. Occipital involvement increased in Delay 2. Parietofrontal Modules 1 + 2 joined (reducing to two modules) after Delay 2 for LO and the action phase for OL, i.e., always after the location cue. The Global Clustering Coefficient is always reduced in the action phase. We conclude the order of L-O cues influences modularity, such that location information produces more parietofrontal ‘binding’, presumably in preparation for transport.

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