Allocentric Spatial Memory Performance in a Virtual Reality-Based Task is Conditioned by Visuospatial Working Memory Capacity

Allocentric Spatial Memory Performance in a Virtual Reality-Based Task is Conditioned by Visuospatial Working Memory Capacity

Traditionally, the medial temporal lobe has been considered a key brain region for spatial memory. Nevertheless, executive functions, such as working memory, also play an important role in complex behaviors, such as spatial navigation. Thus, the main goal of this study is to clarify the relationship...

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Main Authors: Joaquín Castillo Escamilla, José Javier Fernández Castro, Shishir Baliyan, Juan José Ortells-Pareja, Juan José Ortells Rodríguez, José Manuel Cimadevilla
Format: Article
Language:English
Published: MDPI AG 2020-08-01
Series:Brain Sciences
Subjects:
spatial orientation
navigation
spatial learning
hippocampus
executive functions
Online Access:https://www.mdpi.com/2076-3425/10/8/552
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spelling doaj-eb65f9fb75c14fec9191a3ef4dfba22c2020-11-25T03:35:33ZengMDPI AGBrain Sciences2076-34252020-08-011055255210.3390/brainsci10080552Allocentric Spatial Memory Performance in a Virtual Reality-Based Task is Conditioned by Visuospatial Working Memory CapacityJoaquín Castillo Escamilla0José Javier Fernández Castro1Shishir Baliyan2Juan José Ortells-Pareja3Juan José Ortells Rodríguez4José Manuel Cimadevilla5Department of Psychology, University of Almeria, Carretera de Sacramento s/n, C.P. 04120 Almeria, SpainDepartment of Psychology, University of Almeria, Carretera de Sacramento s/n, C.P. 04120 Almeria, SpainDepartment of Psychobiology, UNED, Calle Juan del Rosal, 10, C.P. 28040 Madrid, SpainDepartment of Psychology, University of Almeria, Carretera de Sacramento s/n, C.P. 04120 Almeria, SpainDepartment of Psychology, University of Almeria, Carretera de Sacramento s/n, C.P. 04120 Almeria, SpainDepartment of Psychology, University of Almeria, Carretera de Sacramento s/n, C.P. 04120 Almeria, SpainTraditionally, the medial temporal lobe has been considered a key brain region for spatial memory. Nevertheless, executive functions, such as working memory, also play an important role in complex behaviors, such as spatial navigation. Thus, the main goal of this study is to clarify the relationship between working memory capacity and spatial memory performance. Spatial memory was assessed using a virtual reality-based procedure, the Boxes Room task, and the visual working memory with the computer-based Change Localization Task. One hundred and twenty-three (<i>n</i> = 123) participants took part in this study. Analysis of Covariance (ANCOVA) revealed a statistically significant relationship between working memory capacity and spatial abilities. Thereafter, two subgroups <i>n</i> = 60, were formed according to their performance in the working memory task (1st and 4th quartiles, <i>n</i> = 30 each). Results demonstrate that participants with high working memory capacity committed fewer mistakes in the spatial task compared to the low working memory capacity group. Both groups improved their performance through repeated trials of the spatial task, thus showing that they could learn spatial layouts independent of their working memory capacity. In conclusion, these findings support that spatial memory performance is directly related to working memory skills. This could be relevant for spatial memory assessment in brain lesioned patients.https://www.mdpi.com/2076-3425/10/8/552spatial orientationnavigationspatial learninghippocampusexecutive functions
collection DOAJ
language English
format Article
sources DOAJ
author Joaquín Castillo Escamilla
José Javier Fernández Castro
Shishir Baliyan
Juan José Ortells-Pareja
Juan José Ortells Rodríguez
José Manuel Cimadevilla
spellingShingle Joaquín Castillo Escamilla
José Javier Fernández Castro
Shishir Baliyan
Juan José Ortells-Pareja
Juan José Ortells Rodríguez
José Manuel Cimadevilla
Allocentric Spatial Memory Performance in a Virtual Reality-Based Task is Conditioned by Visuospatial Working Memory Capacity
Brain Sciences
spatial orientation
navigation
spatial learning
hippocampus
executive functions
author_facet Joaquín Castillo Escamilla
José Javier Fernández Castro
Shishir Baliyan
Juan José Ortells-Pareja
Juan José Ortells Rodríguez
José Manuel Cimadevilla
author_sort Joaquín Castillo Escamilla
title Allocentric Spatial Memory Performance in a Virtual Reality-Based Task is Conditioned by Visuospatial Working Memory Capacity
title_short Allocentric Spatial Memory Performance in a Virtual Reality-Based Task is Conditioned by Visuospatial Working Memory Capacity
title_full Allocentric Spatial Memory Performance in a Virtual Reality-Based Task is Conditioned by Visuospatial Working Memory Capacity
title_fullStr Allocentric Spatial Memory Performance in a Virtual Reality-Based Task is Conditioned by Visuospatial Working Memory Capacity
title_full_unstemmed Allocentric Spatial Memory Performance in a Virtual Reality-Based Task is Conditioned by Visuospatial Working Memory Capacity
title_sort allocentric spatial memory performance in a virtual reality-based task is conditioned by visuospatial working memory capacity
publisher MDPI AG
series Brain Sciences
issn 2076-3425
publishDate 2020-08-01
description Traditionally, the medial temporal lobe has been considered a key brain region for spatial memory. Nevertheless, executive functions, such as working memory, also play an important role in complex behaviors, such as spatial navigation. Thus, the main goal of this study is to clarify the relationship between working memory capacity and spatial memory performance. Spatial memory was assessed using a virtual reality-based procedure, the Boxes Room task, and the visual working memory with the computer-based Change Localization Task. One hundred and twenty-three (<i>n</i> = 123) participants took part in this study. Analysis of Covariance (ANCOVA) revealed a statistically significant relationship between working memory capacity and spatial abilities. Thereafter, two subgroups <i>n</i> = 60, were formed according to their performance in the working memory task (1st and 4th quartiles, <i>n</i> = 30 each). Results demonstrate that participants with high working memory capacity committed fewer mistakes in the spatial task compared to the low working memory capacity group. Both groups improved their performance through repeated trials of the spatial task, thus showing that they could learn spatial layouts independent of their working memory capacity. In conclusion, these findings support that spatial memory performance is directly related to working memory skills. This could be relevant for spatial memory assessment in brain lesioned patients.
topic spatial orientation
navigation
spatial learning
hippocampus
executive functions
url https://www.mdpi.com/2076-3425/10/8/552
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