Aging and audio-visual and multi-cue integration in motion.

Eugenie Roudaia,Robert Sekuler,Patrick J Bennett,Allison B Sekuler

doi:10.3389/fpsyg.2013.00267

Eugenie Roudaia, Robert Sekuler + Show 2 more

Open Access

https://doi.org/10.3389/fpsyg.2013.00267

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Abstract

The perception of naturalistic events relies on the ability to integrate information from multiple sensory systems, an ability that may change with healthy aging. When two objects move toward and then past one another, their trajectories are perceptually ambiguous: the objects may seem to stream past one another or bounce off one another. Previous research showed that auditory or visual events that occur at the time of disks’ coincidence could bias the percept toward bouncing or streaming. We exploited this malleable percept to assay age-related changes in the integration of multiple inter- and intra-modal cues. The disks’ relative luminances were manipulated to produce stimuli strongly favoring either bouncing or streaming, or to produce ambiguous motion (equal luminances). A sharp sound coincident with the disks’ overlap increased both groups’ perception of bouncing, but did so significantly less for older subjects. An occluder’s impact on motion perception varied with its duration: a long duration occluder promoted streaming in both groups; a brief occluder promoted bouncing in younger subjects, but not older ones. Control experiments demonstrated that the observed differences between younger and older subjects resulted from neither age-related changes in retinal illuminance nor age-related changes in hearing, pointing to weakened inter- and intra-modal integration with aging. These changes could contribute to previously demonstrated age-related perceptual and memory deficits.

Highlights

How the brain manages to coordinate and integrate information received from multiple sources is one of cognitive neuroscience’s central questions
It is not likely that age-differences in the strength of the sound-induced bouncing bias resulted from group differences in the perceived timing of the click and visual events, as aging does not appear to affect the point of subjective simultaneity for visual and auditory stimuli (Fiacconi et al, 2013)
Some studies suggest that older subjects have a wider, not narrower, time window of audio-visual integration than younger subjects (Laurienti et al, 2006; Diederich et al, 2008; Setti et al, 2011), implying that strict simultaneity of sound and visual collision would be less critical for older subjects

Summary

Introduction

How the brain manages to coordinate and integrate information received from multiple sources is one of cognitive neuroscience’s central questions. Because various aspects of motion perception are affected by age (Habak and Faubert, 2000; Norman et al, 2003; Bennett et al, 2007; Andersen and Ni, 2008; Billino et al, 2008; Pilz et al, 2010; Roudaia et al, 2010), we decided to use motion perception as an arena within which to examine age-related changes in multisensory integration For this purpose, we focused on a visual stimulus whose alternative, competing percepts are strongly influenced by accompanying sound

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