Distinct neural signatures of multimodal resizing illusions

IF 2 3区 心理学 Q3 BEHAVIORAL SCIENCES
Kirralise J. Hansford , Daniel H. Baker , Kirsten J. McKenzie , Catherine E.J. Preston
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引用次数: 0

Abstract

Illusory body resizing typically uses multisensory integration to change the perceived size of a body part. Previous studies associate these multisensory body illusions with frontal theta oscillations and parietal gamma oscillations for dis-integration and integration of multisensory signals, respectively. However, recent studies also support illusory changes of embodiment from unimodal visual stimuli. This preregistered study (N = 48) investigated differences between multisensory visuo-tactile and unimodal visual resizing illusions using EEG, to gain a more comprehensive understanding of the neural underpinnings of resizing illusions in a healthy population. We hypothesised (1) stronger illusion in multisensory compared to unimodal, and unimodal compared to incongruent (dis-integration) conditions, (2) greater parietal gamma during multisensory compared to unimodal, and (3) greater frontal theta during incongruent compared to baseline conditions. Subjective Illusory results partially support Hypothesis 1, showing a stronger illusion in multisensory compared to unimodal conditions, but finding no significant difference comparing unimodal to incongruent conditions. Results partially supported EEG hypotheses, finding increased parietal gamma activity comparing multisensory to unimodal visual conditions, happening at a later stage of the illusion when compared to previous rubber hand illusion EEG findings, whilst also finding increased parietal theta activity when comparing incongruent to non-illusion conditions. While results demonstrated that only 27% of participants experienced the stretching illusion with unimodal visual stimuli compared to 73% of participants experiencing the stretching illusion in the multisensory condition, further analysis suggested that those who experience visual-only illusions exhibit a different neural signature to those who do not, with activity focussed around frontal and parietal regions early on in the illusory manipulation, compared to activity focussed more over parietal regions and at a later point in the illusory manipulation for the full sample of participants. Our results replicate previous subjective experience findings and support the importance of multisensory integration for illusory changes in perceived body size, whilst adding to our understanding of the temporal onset of multisensory integration within resizing illusions, differing from that of rubber hand illusions.

多模式重定大小错觉的不同神经特征
虚幻的身体大小调整通常使用多感官集成来改变身体部位的感知大小。先前的研究将这些多感觉身体错觉与额叶θ振荡和顶叶γ振荡联系起来,分别用于多感觉信号的去整合和整合。然而,最近的研究也支持单一模式视觉刺激的化身的虚幻变化。这项预先注册的研究(N=48)使用脑电图研究了多感觉视觉触觉和单模式视觉调整错觉之间的差异,以更全面地了解健康人群中调整错觉大小的神经基础。我们假设:(1)多感觉状态下的错觉比单式更强,单式状态下的幻觉比不协调(不整合)状态更强,(2)多感觉期间的顶叶γ比单式更大,(3)不协调期间的额叶θ比基线状态更大。主观错觉结果部分支持假设1,显示与单峰条件相比,多感官条件下的错觉更强,但与不一致条件相比,没有发现显著差异。结果部分支持EEG假设,发现与多感觉和单模式视觉条件相比,顶叶γ活动增加,与之前的橡皮手错觉EEG结果相比,发生在错觉的后期,同时也发现与非错觉条件相比,不协调的顶叶θ活动增加。虽然研究结果表明,只有27%的参与者在单模式视觉刺激下经历了拉伸错觉,而在多感官条件下经历拉伸错觉的参与者只有73%,但进一步的分析表明,那些只经历视觉错觉的人与那些没有经历视觉幻觉的人表现出不同的神经特征,在幻觉操作的早期,活动集中在额叶和顶叶区域,相比之下,在整个参与者样本的幻觉操作中,活动更多地集中在顶叶区域和稍后的某个点。我们的研究结果复制了以前的主观经验发现,并支持多感官整合对感知体型的虚幻变化的重要性,同时增加了我们对调整大小错觉中多感官整合的时间开始的理解,这与橡胶手错觉不同。
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来源期刊
Neuropsychologia
Neuropsychologia 医学-行为科学
CiteScore
5.10
自引率
3.80%
发文量
228
审稿时长
4 months
期刊介绍: Neuropsychologia is an international interdisciplinary journal devoted to experimental and theoretical contributions that advance understanding of human cognition and behavior from a neuroscience perspective. The journal will consider for publication studies that link brain function with cognitive processes, including attention and awareness, action and motor control, executive functions and cognitive control, memory, language, and emotion and social cognition.
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