Vertical prism adaptation, but not sound presentation, modulates the visuospatial representation: A manual line-bisection study

IF 3.2 2区 心理学 Q1 BEHAVIORAL SCIENCES
Vincent Ardonceau , Bénédicte Poulin-Charronnat , Clémence Bonnet , Cyril Sirandré , Carine Michel-Colent
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引用次数: 0

Abstract

The present study aimed at testing whether vertical prism adaptation (PA) can modulate vertical visuospatial representation, assessed with a vertical manual line-bisection (MLB) task (Experiment 1). In a second time, we wanted to investigate the potential influence of sound presentation during such a task. Sound is a spatially valued element that has previously been reported to modify horizontal visuospatial representation. In Experiment 2, we presented either a high pitch, a low pitch, or no sound during the same MLB as in Experiment 1. With this experiment, we also searched for an eventual interaction between the effect of sound presentation and the potential cognitive aftereffects of vertical PA on visual representation.

Both Experiments 1 and 2 were constructed with the same design and conducted with two distinct groups of young healthy right-handed participants. First, we assessed the initial sensorimotor state with an open-loop pointing task, and the initial representational state through a vertical MLB (with addition of sound for Experiment 2). Then participants were submitted to a 16-minute PA procedure and were tested again on the open-loop pointing task and the MLB to assess the aftereffects following prism removal.

Our results showed sensorimotor aftereffects following both upward and downward PA, in a direction opposed to the optical deviation used. The early aftereffects measured following PA were symmetrical, but at the end of the experiment the residual aftereffects were smaller following downward PA than upward PA. We also provide a new insight on the aftereffects of vertical PA on visuospatial representation, showing that downward PA (but not upward PA) can produce an upward bias on the manual line-bisection task. This is the first proof of such cognitive aftereffects following vertical PA. However, we found no effect of sound presentation on the vertical visual space representation and no interaction between PA and sound presentation.

垂直棱镜适应会调节视觉空间表征,而声音呈现则不会:手动线切割研究
本研究旨在测试垂直棱镜适应(PA)是否能调节垂直视觉空间表征,通过垂直手动线段分割(MLB)任务进行评估(实验1)。在第二次实验中,我们希望研究声音呈现在此类任务中的潜在影响。声音是一种有空间价值的元素,以前曾有报道称它能改变水平视觉空间表征。在实验 2 中,我们在与实验 1 相同的 MLB 中呈现了高音调、低音调或无声音。在该实验中,我们还寻找了声音呈现效果与垂直 PA 对视觉表征的潜在认知后效之间的最终交互作用。实验 1 和实验 2 采用了相同的设计,并在两组不同的年轻健康右利手参与者中进行。首先,我们通过开环指向任务评估了初始感觉运动状态,并通过垂直 MLB 评估了初始表象状态(实验 2 中增加了声音)。我们的结果表明,向上和向下 PA 之后都会产生感觉运动后效,其方向与所使用的光学偏差相反。PA 后测得的早期视后效是对称的,但在实验结束时,向下 PA 后的残余视后效小于向上 PA 后的残余视后效。我们还对垂直 PA 对视觉空间表征的后发效应提出了新的见解,表明向下 PA(而不是向上 PA)会在手动线段分割任务中产生向上偏差。这是首次证明垂直 PA 会产生这种认知后效应。然而,我们没有发现声音呈现对垂直视觉空间表征的影响,也没有发现 PA 和声音呈现之间的交互作用。
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来源期刊
Cortex
Cortex 医学-行为科学
CiteScore
7.00
自引率
5.60%
发文量
250
审稿时长
74 days
期刊介绍: CORTEX is an international journal devoted to the study of cognition and of the relationship between the nervous system and mental processes, particularly as these are reflected in the behaviour of patients with acquired brain lesions, normal volunteers, children with typical and atypical development, and in the activation of brain regions and systems as recorded by functional neuroimaging techniques. It was founded in 1964 by Ennio De Renzi.
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