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Structural Brain Correlates of Synaesthesia

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Structural Brain Correlates of Synaesthesia Investigators: Michael Banissy1, Neil Muggleton1, Ryota Kanai1, Vincent Walsh1 Institute of Cognitive Neuroscience, UCL – PowerPoint PPT presentation

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Title: Structural Brain Correlates of Synaesthesia


1
Structural Brain Correlates of Synaesthesia
  • Investigators
  • Michael Banissy1, Neil Muggleton1, Ryota Kanai1,
    Vincent Walsh1
  • Institute of Cognitive Neuroscience, UCL

2
Background
  • Synaesthesia
  • Developmental condition in which one property of
    a stimulus leads to a secondary experience of
    another property not typically associated with
    the original stimulus.
  • What we know
  • Single DTI study on grapheme-colour synaesthesia
    (Rouw Scholte, 2007)
  • Synaesthete-Control gt structural connectivity in
    inferior temporal, parietal and frontal brain
    regions.
  • Greater connectivity in inferior temporal cortex
    was stronger for projectors compared with
    associators
  • Presence of synaesthesia exerts a wider
    influence over veridical sensory processing
    (Barnett et al. 2008)
  • VEP differences in L-C synaesthetes with simple
    visual stimuli (high spatial frequency Gabors)
    that do not evoke synaesthesia.
  • The presence of synaesthesia is linked with
    enhanced sensory perception (Banissy et al. 2009)
  • What we want to know
  • What are the structural correlates of
    synaesthesia and how do they link with
    performance?
  • Is synaesthesia linked to more widespread
    differences in sensory perception?

3
Design
  • DTI (2 x 2 x 2 mm)
  • Gross and microstructural correlates of
    synaesthesia
  • Contrast number of fibres and voxels through
    which fibers pass
  • Contrast FA values in synaesthetes to control
    participants
  • Contrast across subtypes of synaesthetes
  • Correlate activations with behavioural
    performance (in both synaesthetes and
    non-synaesthetes)
  • VBM and cortical thickness
  • Synaesthetic Localiser
  • Blocked design
  • Strong synaesthetic inducing grapheme x Weak
    synaesthetic inducing grapheme x Non-synaesthetic
    inducing grapheme
  • Retinotopy
  • Comparing synaesthetes to control
  • DTI based on retinotopy
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