Developmental changes in the multisensory temporal binding window persist into adolescence

We live in a world rich in sensory information, and consequently the brain is challenged with deciphering which cues from the various sensory modalities belong together. Determinations regarding the relatedness of sensory information appear to be based, at least in part, on the spatial and temporal...

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Bibliographic Details
Published in:Developmental science 2012-09, Vol.15 (5), p.688-696
Main Authors: Hillock-Dunn, Andrea, Wallace, Mark T.
Format: Article
Language:English
Subjects:
Acoustic Stimulation
Adolescent
Adolescents
Age Differences
Aging
Attention
Auditory Perception - physiology
Brain - physiology
Brain research
Child
Child Development
Children
Cognition & reasoning
Cues
Female
Hearing Loss
Humans
Male
Perception
Perceptual Development
Photic Stimulation
Sensory Integration
Sensory perception
Sound
Time
Visual Perception - physiology
Young Adult
Young Adults
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Summary:We live in a world rich in sensory information, and consequently the brain is challenged with deciphering which cues from the various sensory modalities belong together. Determinations regarding the relatedness of sensory information appear to be based, at least in part, on the spatial and temporal relationships between the stimuli. Stimuli that are presented in close spatial and temporal correspondence are more likely to be associated with one another and thus ‘bound’ into a single perceptual entity. While there is a robust literature delineating behavioral changes in perception induced by multisensory stimuli, maturational changes in multisensory processing, particularly in the temporal realm, are poorly understood. The current study examines the developmental progression of multisensory temporal function by analyzing responses on an audiovisual simultaneity judgment task in 6‐ to 23‐year‐old participants. The overarching hypothesis for the study was that multisensory temporal function will mature with increasing age, with the developmental trajectory for this change being the primary point of inquiry. Results indeed reveal an age‐dependent decrease in the size of the ‘multisensory temporal binding window’, the temporal interval within which multisensory stimuli are likely to be perceptually bound, with changes occurring over a surprisingly protracted time course that extends into adolescence. We live in a world rich in sensory information, and consequently the brain is challenged with deciphering which cues from the various sensory modalities belong together. Determinations regarding the relatedness of sensory information appear to be based, at least in part, on the spatial and temporal relationships between the stimuli. Stimuli that are presented in close spatial and temporal correspondence are more likely to be associated with one another and thus ‘bound’ into a single perceptual entity.
ISSN:1363-755X
1467-7687
DOI:10.1111/j.1467-7687.2012.01171.x