Crossmodal congruency effect scores decrease with repeat test exposure
The incorporation of feedback into a person’s body schema is well established. The crossmodal congruency task (CCT) is used to objectively quantify incorporation without being susceptible to experimenter biases. This visual-tactile interference task is used to calculate the crossmodal congruency eff...
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doaj-dc2f775a3751498bbf75e0d3004986942020-11-25T00:50:35ZengPeerJ Inc.PeerJ2167-83592019-05-017e697610.7717/peerj.6976Crossmodal congruency effect scores decrease with repeat test exposureDaniel Blustein0Satinder Gill1Adam Wilson2Jon Sensinger3Department of Psychology; Neuroscience Program, Rhodes College, Memphis, TN, United States of AmericaInstitute of Biomedical Engineering, University of New Brunswick, Fredericton, New Brunswick, CanadaDepartment of Electrical and Computer Engineering, University of New Brunswick, Fredericton, New Brunswick, CanadaInstitute of Biomedical Engineering, University of New Brunswick, Fredericton, New Brunswick, CanadaThe incorporation of feedback into a person’s body schema is well established. The crossmodal congruency task (CCT) is used to objectively quantify incorporation without being susceptible to experimenter biases. This visual-tactile interference task is used to calculate the crossmodal congruency effect (CCE) score as a difference in response time between incongruent and congruent trials. Here we show that this metric is susceptible to a learning effect that causes attenuation of the CCE score due to repeated task exposure sessions. We demonstrate that this learning effect is persistent, even after a 6 month hiatus in testing. Two mitigation strategies are proposed: 1. Only use CCE scores that are taken after learning has stabilized, or 2. Use a modified CCT protocol that decreases the task exposure time. We show that the modified and shortened CCT protocol, which may be required to meet time or logistical constraints in laboratory or clinical settings, reduced the impact of the learning effect on CCT results. Importantly, the CCE scores from the modified protocol were not significantly more variable than results obtained with the original protocol. This study highlights the importance of considering exposure time to the CCT when designing experiments and suggests two mitigation strategies to improve the utility of this psychophysical assessment.https://peerj.com/articles/6976.pdfCrossmodal congruencyLearning effectMultisensory integrationReaction time |
collection |
DOAJ |
language |
English |
format |
Article |
sources |
DOAJ |
author |
Daniel Blustein Satinder Gill Adam Wilson Jon Sensinger |
spellingShingle |
Daniel Blustein Satinder Gill Adam Wilson Jon Sensinger Crossmodal congruency effect scores decrease with repeat test exposure PeerJ Crossmodal congruency Learning effect Multisensory integration Reaction time |
author_facet |
Daniel Blustein Satinder Gill Adam Wilson Jon Sensinger |
author_sort |
Daniel Blustein |
title |
Crossmodal congruency effect scores decrease with repeat test exposure |
title_short |
Crossmodal congruency effect scores decrease with repeat test exposure |
title_full |
Crossmodal congruency effect scores decrease with repeat test exposure |
title_fullStr |
Crossmodal congruency effect scores decrease with repeat test exposure |
title_full_unstemmed |
Crossmodal congruency effect scores decrease with repeat test exposure |
title_sort |
crossmodal congruency effect scores decrease with repeat test exposure |
publisher |
PeerJ Inc. |
series |
PeerJ |
issn |
2167-8359 |
publishDate |
2019-05-01 |
description |
The incorporation of feedback into a person’s body schema is well established. The crossmodal congruency task (CCT) is used to objectively quantify incorporation without being susceptible to experimenter biases. This visual-tactile interference task is used to calculate the crossmodal congruency effect (CCE) score as a difference in response time between incongruent and congruent trials. Here we show that this metric is susceptible to a learning effect that causes attenuation of the CCE score due to repeated task exposure sessions. We demonstrate that this learning effect is persistent, even after a 6 month hiatus in testing. Two mitigation strategies are proposed: 1. Only use CCE scores that are taken after learning has stabilized, or 2. Use a modified CCT protocol that decreases the task exposure time. We show that the modified and shortened CCT protocol, which may be required to meet time or logistical constraints in laboratory or clinical settings, reduced the impact of the learning effect on CCT results. Importantly, the CCE scores from the modified protocol were not significantly more variable than results obtained with the original protocol. This study highlights the importance of considering exposure time to the CCT when designing experiments and suggests two mitigation strategies to improve the utility of this psychophysical assessment. |
topic |
Crossmodal congruency Learning effect Multisensory integration Reaction time |
url |
https://peerj.com/articles/6976.pdf |
work_keys_str_mv |
AT danielblustein crossmodalcongruencyeffectscoresdecreasewithrepeattestexposure AT satindergill crossmodalcongruencyeffectscoresdecreasewithrepeattestexposure AT adamwilson crossmodalcongruencyeffectscoresdecreasewithrepeattestexposure AT jonsensinger crossmodalcongruencyeffectscoresdecreasewithrepeattestexposure |
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1725247763763953664 |