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视障儿童触觉方向辨别能力差可能反映了跨感觉校准的中断。

Poor haptic orientation discrimination in nonsighted children may reflect disruption of cross-sensory calibration.

机构信息

Robotics, Brain and Cognitive Sciences, Istituto Italiano di Tecnologia, Via Morego 30, 16163 Genoa, Italy.

出版信息

Curr Biol. 2010 Feb 9;20(3):223-5. doi: 10.1016/j.cub.2009.11.069. Epub 2010 Jan 28.

Abstract

A long-standing question, going back at least 300 years to Berkeley's famous essay, is how sensory systems become calibrated with physical reality. We recently showed [1] that children younger than 8-10 years do not integrate visual and haptic information optimally, but that one or the other sense prevails: touch for size and vision for orientation discrimination. The sensory dominance may reflect crossmodal calibration of vision and touch, where the more accurate sense calibrates the other. This hypothesis leads to a clear prediction: that lack of clear vision at an early age should affect calibration of haptic orientation discrimination. We therefore measured size and orientation haptic discrimination thresholds in 17 congenitally visually impaired children (aged 5-19). Haptic orientation thresholds were greatly impaired compared with age-matched controls, whereas haptic size thresholds were at least as good, and often better. One child with a late-acquired visual impairment stood out with excellent orientation discrimination. The results provide strong support for our crossmodal calibration hypothesis.

摘要

一个由来已久的问题,可以追溯到至少 300 年前伯克利的著名论文,是感官系统如何与物理现实相适应。我们最近表明[1],8-10 岁以下的儿童不能最佳地整合视觉和触觉信息,但一种或另一种感觉占主导地位:触觉用于大小,视觉用于方向辨别。感觉优势可能反映了视觉和触觉的跨模态校准,其中更准确的感觉校准另一个。这一假设导致了一个明确的预测:早年缺乏清晰的视觉应该会影响触觉方向辨别能力的校准。因此,我们测量了 17 名先天性视力障碍儿童(年龄 5-19 岁)的大小和方向触觉辨别阈值。与年龄匹配的对照组相比,触觉方向阈值受到严重损害,而触觉大小阈值至少同样好,而且通常更好。一个有后天视力障碍的孩子的方向辨别能力非常出色。结果为我们的跨模态校准假设提供了强有力的支持。

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