Size Constancy Mechanisms: Empirical Evidence from Touch.

Q2 Medicine Vision (Switzerland) Pub Date : 2022-07-01 DOI:10.3390/vision6030040
Luigi Tamè, Suzuki Limbu, Rebecca Harlow, Mita Parikh, Matthew R Longo
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Abstract

Several studies have shown the presence of large anisotropies for tactile distance perception across several parts of the body. The tactile distance between two touches on the dorsum of the hand is perceived as larger when they are oriented mediolaterally (across the hand) than proximodistally (along the hand). This effect can be partially explained by the characteristics of primary somatosensory cortex representations. However, this phenomenon is significantly attenuated relative to differences in acuity and cortical magnification, suggesting a process of tactile size constancy. It is unknown whether the same kind of compensation also takes place when estimating the size of a continuous object. Here, we investigate whether the tactile anisotropy that typically emerges when participants have to estimate the distance between two touches is also present when a continuous object touches the skin and participants have to estimate its size. In separate blocks, participants judged which of two tactile distances or objects on the dorsum of their hand felt larger. One stimulation (first or second) was aligned with the proximodistal axis (along the hand) and the other with the mediolateral axis (across the hand). Results showed a clear anisotropy for distances between two distinct points, with across distances consistently perceived as larger than along distances, as in previous studies. Critically, however, this bias was significantly reduced or absent for judgments of the length of continuous objects. These results suggest that a tactile size constancy process is more effective when the tactile size of an object has to be approximated compared to when the distance between two touches has to be determined. The possible mechanism subserving these results is described and discussed. We suggest that a lateral inhibition mechanism, when an object touches the skin, provides information through the distribution of the inhibitory subfields of the RF about the shape of the tactile RF itself. Such a process allows an effective tactile size compensatory mechanism where a good match between the physical and perceptual dimensions of the object is achieved.

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尺寸恒定机制:来自触觉的经验证据。
几项研究表明,在身体的几个部位,触觉距离感知存在很大的各向异性。手背上两次触碰之间的触觉距离,在中外侧(穿过手)比近端(沿着手)被认为更大。这种效应可以部分地用初级体感皮层表征的特征来解释。然而,这种现象相对于敏锐度和皮质放大倍率的差异显著减弱,表明触觉大小恒定的过程。在估计连续物体的大小时,是否也会发生同样的补偿,这是未知的。在这里,我们研究了当参与者必须估计两次触摸之间的距离时通常出现的触觉各向异性是否也存在于连续物体接触皮肤时,参与者必须估计其大小。在不同的小组中,参与者判断两个触摸距离或手背上的物体中哪一个感觉更大。一个刺激(第一次或第二次)与近远轴(沿着手)对齐,另一个与中外侧轴(穿过手)对齐。结果显示两个不同点之间的距离具有明显的各向异性,与之前的研究一样,横向距离始终被认为大于横向距离。然而,关键的是,这种偏差在判断连续物体的长度时显着减少或不存在。这些结果表明,与确定两次触摸之间的距离相比,当物体的触觉大小必须近似时,触觉尺寸恒定过程更有效。本文描述并讨论了产生这些结果的可能机制。我们认为,当物体接触皮肤时,侧抑制机制通过射频抑制子场的分布提供有关触觉射频本身形状的信息。这样的过程允许一个有效的触觉尺寸补偿机制,在物体的物理和感知维度之间实现良好的匹配。
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来源期刊
Vision (Switzerland)
Vision (Switzerland) Health Professions-Optometry
CiteScore
2.30
自引率
0.00%
发文量
62
审稿时长
11 weeks
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