空间记忆与学习：探究动态视敏度的作用。

Spatial memory and learning: investigating the role of dynamic visual acuity.

作者信息

Kabiş Burak, Gürses Emre, Işıkay Ayşe Ýlksen Çolpak, Aksoy Songül

机构信息

Department of Audiology, Faculty of Health Science, Gazi University, Ankara, Turkey.

Department of Audiology, Faculty of Health Science, Hacettepe University, Ankara, Turkey.

出版信息

Front Behav Neurosci. 2024 Aug 29;18:1429069. doi: 10.3389/fnbeh.2024.1429069. eCollection 2024.

DOI:10.3389/fnbeh.2024.1429069

PMID:39267984

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11390580/

Abstract

INTRODUCTION

The vestibular system's contribution to spatial learning and memory abilities may be clarified using the virtual Morris Water Maze Task (vMWMT). This is important because of the connections between the vestibular system and the hippocampus area. However, there is ongoing debate over the role of the vestibular system in developing spatial abilities. This study aimed to evaluate the relationship between Dynamic Visual Acuity (DVA) across three planes and spatial abilities.

METHODS

This cross-sectional study was conducted with 50 healthy adults aged 18 to 55 with normal stress levels and mental health and no neurological, audiological, or vestibular complaints. The Trail-Making Test (TMT) Forms A and B for the assessment of executive functions, the DVA test battery for the evaluation of visual motor functions, and the Virtual Morris Water Maze Test (vMWMT) for the assessment of spatial learning and spatial memory were performed. All participants also underwent the Benton Face Recognition Test (BFRT) and Digit Symbol Substitution Tests (DSST) to assess their relation with spatial memory.

RESULTS

DVA values in horizontal (H-DVA), vertical (V-DVA), and sagittal (S-DVA) planes ranged from (-0.26) to 0.36 logMAR, (-0.20) to 0.36 logMAR, and (-0.28) to 0.33 logMAR, respectively. The latency of three planes of DVA was affected by vMWMT (Horizontal, Vertical, and Sagittal; : 22.733, 18.787, 13.341, respectively < 0.001). Moreover, a moderately significant correlation was also found, with a value of 0.571 between the Virtual MWM test and BFRT and a value of 0.539 between the DSST ( < 0.001).

CONCLUSION

Spatial abilities in healthy adults were significantly influenced by dynamic visual functions across horizontal, vertical, and sagittal planes. These findings are expected to trigger essential discussions about the mechanisms that connect the vestibular-visual system to the hippocampus. The original vMWMT protocol is likely to serve as a model for future studies utilizing this technology.

摘要

引言

使用虚拟莫里斯水迷宫任务（vMWMT）可能会阐明前庭系统对空间学习和记忆能力的贡献。这一点很重要，因为前庭系统与海马体区域之间存在联系。然而，关于前庭系统在空间能力发展中的作用仍存在争议。本研究旨在评估三个平面上的动态视力（DVA）与空间能力之间的关系。

方法

本横断面研究对50名年龄在18至55岁之间、压力水平和心理健康正常且无神经、听力或前庭方面主诉的健康成年人进行。进行了用于评估执行功能的连线测验（TMT）A 型和B型、用于评估视觉运动功能的DVA测试组以及用于评估空间学习和空间记忆的虚拟莫里斯水迷宫测试（vMWMT）。所有参与者还接受了本顿面部识别测试（BFRT）和数字符号替换测试（DSST），以评估它们与空间记忆的关系。

结果

水平（H-DVA）、垂直（V-DVA）和矢状（S-DVA）平面上的DVA值范围分别为（-0.26）至0.36 logMAR、（-0.20）至0.36 logMAR和（-0.28）至0.33 logMAR。DVA三个平面的潜伏期受vMWMT影响（水平、垂直和矢状；分别为：22.733、18.787、13.341，均<0.001）。此外，还发现了中度显著的相关性，虚拟MWM测试与BFRT之间的值为0.571，DSST之间的值为0.539（<0.001）。

结论

健康成年人的空间能力受到水平、垂直和矢状平面上动态视觉功能的显著影响。这些发现有望引发关于将前庭-视觉系统与海马体联系起来的机制的重要讨论。原始的vMWMT方案可能会成为未来利用该技术进行研究的模型。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/afc3/11390580/76d334ad8d92/fnbeh-18-1429069-g001.jpg

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空间记忆与学习：探究动态视敏度的作用。

Spatial memory and learning: investigating the role of dynamic visual acuity.

作者信息

机构信息

出版信息

INTRODUCTION

METHODS

RESULTS

CONCLUSION

引言

方法

结果

结论

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