Late development of cue integration is linked to sensory fusion in cortex
Dekker, T.M.; Ban, H.; Van der Velde, B.; Sereno, M.I.; Welchman, A.; Nardini, M.
B. Van der Velde
Professor Marko Nardini firstname.lastname@example.org
Adults optimize perceptual judgements by integrating different types of sensory information [ 1, 2 ]. This engages specialized neural circuits that fuse signals from the same [ 3–5 ] or different [ 6 ] modalities. Whereas young children can use sensory cues independently, adult-like precision gains from cue combination only emerge around ages 10 to 11 years [ 7–9 ]. Why does it take so long to make best use of sensory information? Existing data cannot distinguish whether this (1) reflects surprisingly late changes in sensory processing (sensory integration mechanisms in the brain are still developing) or (2) depends on post-perceptual changes (integration in sensory cortex is adult-like, but higher-level decision processes do not access the information) [ 10 ]. We tested visual depth cue integration in the developing brain to distinguish these possibilities. We presented children aged 6–12 years with displays depicting depth from binocular disparity and relative motion and made measurements using psychophysics, retinotopic mapping, and pattern classification fMRI. Older children (>10.5 years) showed clear evidence for sensory fusion in V3B, a visual area thought to integrate depth cues in the adult brain [ 3–5 ]. By contrast, in younger children (<10.5 years), there was no evidence for sensory fusion in any visual area. This significant age difference was paired with a shift in perceptual performance around ages 10 to 11 years and could not be explained by motion artifacts, visual attention, or signal quality differences. Thus, whereas many basic visual processes mature early in childhood [ 11, 12 ], the brain circuits that fuse cues take a very long time to develop.
Dekker, T., Ban, H., Van der Velde, B., Sereno, M., Welchman, A., & Nardini, M. (2015). Late development of cue integration is linked to sensory fusion in cortex. Current Biology, 25(21), 2856-2861. https://doi.org/10.1016/j.cub.2015.09.043
|Journal Article Type||Article|
|Acceptance Date||Sep 17, 2015|
|Online Publication Date||Oct 17, 2015|
|Publication Date||Nov 2, 2015|
|Deposit Date||Sep 17, 2015|
|Publicly Available Date||Nov 18, 2015|
|Peer Reviewed||Peer Reviewed|
Published Journal Article
Publisher Licence URL
© 2015 The Authors. Published by Elsevier Inc. This is an open access article under the CC BY license (http://creativecommons.org/licenses/by/4.0/).
You might also like
Multisensory perception and decision-making with a new sensory skill
Sensory Augmentation for a Rapid Motor Task in a Multisensory Environment
Internal Biases Are Linked to Disrupted Cue Combination in Children and Adults"
Developmental changes in colour constancy in a naturalistic object selection task