An audio-visual motor training improves audio spatial localization skills in individuals with scotomas due to retinal degenerative diseases

An audio-visual motor training improves audio spatial localization skills in individuals with scotomas due to retinal degenerative diseases

Several studies have shown that impairments in a sensory modality can induce perceptual deficits in tasks involving the remaining senses. For example, people with retinal degenerative diseases like Macular Degeneration (MD) and with central scotoma show biased auditory localization abilities towards...

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Main Authors: Hafsah Ahmad, Alessia Tonelli, Claudio Campus, Elisabetta Capris, Valentina Facchini, Giulio Sandini, Monica Gori
Format: Article
Language:English
Published: Elsevier 2021-09-01
Series:Acta Psychologica
Subjects:
Spatial representation
Retinal degenerative diseases (RDD)
Macular Degeneration
Scotoma
Audio-visual motor training
Multisensory integration
Online Access:http://www.sciencedirect.com/science/article/pii/S0001691821001347
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spelling doaj-90fad7dde769422e99d9ce450ca7725d2021-09-03T04:43:24ZengElsevierActa Psychologica0001-69182021-09-01219103384An audio-visual motor training improves audio spatial localization skills in individuals with scotomas due to retinal degenerative diseasesHafsah Ahmad0Alessia Tonelli1Claudio Campus2Elisabetta Capris3Valentina Facchini4Giulio Sandini5Monica Gori6Robotics, Brain and Cognitive Sciences (RBCS), Genova, Italy; Unit for Visually Impaired People (U-VIP), Italian Institute of Technology (IIT), Genova, Italy; University of Genova, Genova, Italy; Sino-Pakistan Centre for Artificial Intelligence (SPCAI), Pak-Austria Fachhochschule: Institute of Applied Sciences and Technology (PAF-IAST), Haripur, PakistanUnit for Visually Impaired People (U-VIP), Italian Institute of Technology (IIT), Genova, ItalyUnit for Visually Impaired People (U-VIP), Italian Institute of Technology (IIT), Genova, ItalyIstituto David Chiossone, Genova, ItalyIstituto David Chiossone, Genova, ItalyRobotics, Brain and Cognitive Sciences (RBCS), Genova, ItalyUnit for Visually Impaired People (U-VIP), Italian Institute of Technology (IIT), Genova, Italy; Corresponding author.Several studies have shown that impairments in a sensory modality can induce perceptual deficits in tasks involving the remaining senses. For example, people with retinal degenerative diseases like Macular Degeneration (MD) and with central scotoma show biased auditory localization abilities towards the visual field's scotoma area. This result indicates an auditory spatial reorganization of cross-modal processing in people with scotoma when the visual information is impaired. Recent works showed that multisensory training could be beneficial to improve spatial perception. In line with this idea, here we hypothesize that audio-visual and motor training could improve people's spatial skills with retinal degenerative diseases. In the present study, we tested this hypothesis by testing two groups of scotoma patients in an auditory and visual localization task before and after a training or rest performance. The training group was tested before and after multisensory training, while the control group performed the two tasks twice after 10 min of break. The training was done with a portable device positioned on the finger, providing spatially and temporally congruent audio and visual feedback during arm movement. Our findings show improved audio and visual localization for the training group and not for the control group. These results suggest that integrating multiple spatial sensory cues can improve the spatial perception of scotoma patients. This finding ignites further research and applications for people with central scotoma for whom rehabilitation is classically focused on training visual modality only.http://www.sciencedirect.com/science/article/pii/S0001691821001347Spatial representationRetinal degenerative diseases (RDD)Macular DegenerationScotomaAudio-visual motor trainingMultisensory integration
collection DOAJ
language English
format Article
sources DOAJ
author Hafsah Ahmad
Alessia Tonelli
Claudio Campus
Elisabetta Capris
Valentina Facchini
Giulio Sandini
Monica Gori
spellingShingle Hafsah Ahmad
Alessia Tonelli
Claudio Campus
Elisabetta Capris
Valentina Facchini
Giulio Sandini
Monica Gori
An audio-visual motor training improves audio spatial localization skills in individuals with scotomas due to retinal degenerative diseases
Acta Psychologica
Spatial representation
Retinal degenerative diseases (RDD)
Macular Degeneration
Scotoma
Audio-visual motor training
Multisensory integration
author_facet Hafsah Ahmad
Alessia Tonelli
Claudio Campus
Elisabetta Capris
Valentina Facchini
Giulio Sandini
Monica Gori
author_sort Hafsah Ahmad
title An audio-visual motor training improves audio spatial localization skills in individuals with scotomas due to retinal degenerative diseases
title_short An audio-visual motor training improves audio spatial localization skills in individuals with scotomas due to retinal degenerative diseases
title_full An audio-visual motor training improves audio spatial localization skills in individuals with scotomas due to retinal degenerative diseases
title_fullStr An audio-visual motor training improves audio spatial localization skills in individuals with scotomas due to retinal degenerative diseases
title_full_unstemmed An audio-visual motor training improves audio spatial localization skills in individuals with scotomas due to retinal degenerative diseases
title_sort audio-visual motor training improves audio spatial localization skills in individuals with scotomas due to retinal degenerative diseases
publisher Elsevier
series Acta Psychologica
issn 0001-6918
publishDate 2021-09-01
description Several studies have shown that impairments in a sensory modality can induce perceptual deficits in tasks involving the remaining senses. For example, people with retinal degenerative diseases like Macular Degeneration (MD) and with central scotoma show biased auditory localization abilities towards the visual field's scotoma area. This result indicates an auditory spatial reorganization of cross-modal processing in people with scotoma when the visual information is impaired. Recent works showed that multisensory training could be beneficial to improve spatial perception. In line with this idea, here we hypothesize that audio-visual and motor training could improve people's spatial skills with retinal degenerative diseases. In the present study, we tested this hypothesis by testing two groups of scotoma patients in an auditory and visual localization task before and after a training or rest performance. The training group was tested before and after multisensory training, while the control group performed the two tasks twice after 10 min of break. The training was done with a portable device positioned on the finger, providing spatially and temporally congruent audio and visual feedback during arm movement. Our findings show improved audio and visual localization for the training group and not for the control group. These results suggest that integrating multiple spatial sensory cues can improve the spatial perception of scotoma patients. This finding ignites further research and applications for people with central scotoma for whom rehabilitation is classically focused on training visual modality only.
topic Spatial representation
Retinal degenerative diseases (RDD)
Macular Degeneration
Scotoma
Audio-visual motor training
Multisensory integration
url http://www.sciencedirect.com/science/article/pii/S0001691821001347
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