新型“生物运动”的视觉感知与神经关联

Visual perception and neural correlates of novel 'biological motion'.

作者信息

Pyles John A, Garcia Javier O, Hoffman Donald D, Grossman Emily D

机构信息

Department of Cognitive Sciences, 3151 Social Sciences Plaza, University of California-Irvine, Irvine, CA 92697-5100, USA.

出版信息

Vision Res. 2007 Sep;47(21):2786-97. doi: 10.1016/j.visres.2007.07.017. Epub 2007 Sep 6.

DOI:10.1016/j.visres.2007.07.017

PMID:17825349

Abstract

Studies of biological motion have identified specialized neural machinery for the perception of human actions. Our experiments examine behavioral and neural responses to novel, articulating and non-human 'biological motion'. We find that non-human actions are seen as animate, but do not convey body structure when viewed as point-lights. Non-human animations fail to engage the human STSp, and neural responses in pITG, ITS and FFA/FBA are reduced only for the point-light versions. Our results suggest that STSp is specialized for human motion and ventral temporal regions support general, dynamic shape perception. We also identify a region in ventral temporal cortex 'selective' for non-human animations, which we suggest processes novel, dynamic objects.

摘要

对生物运动的研究已经确定了用于感知人类动作的专门神经机制。我们的实验研究了对新颖的、有明确关节动作的非人类“生物运动”的行为和神经反应。我们发现，非人类动作被视为有生命的，但当被视为点光源时，无法传达身体结构。非人类动画无法激活人类颞上沟后部（STSp），并且只有在点光源版本中，颞下回（pITG）、颞内沟（ITS）以及梭状回面孔区/枕颞面孔区（FFA/FBA）的神经反应才会减少。我们的结果表明，颞上沟后部专门用于感知人类运动，而腹侧颞叶区域支持一般的动态形状感知。我们还在腹侧颞叶皮层中确定了一个对非人类动画“有选择性”的区域，我们认为该区域处理新颖的动态物体。

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新型“生物运动”的视觉感知与神经关联

Visual perception and neural correlates of novel 'biological motion'.

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