用于在感知和抓握中对物体形状进行视觉分析的独立神经通路。

Separate neural pathways for the visual analysis of object shape in perception and prehension.

作者信息

Goodale M A, Meenan J P, Bülthoff H H, Nicolle D A, Murphy K J, Racicot C I

机构信息

Department of Psychology, University of Western Ontario, London, Canada.

出版信息

Curr Biol. 1994 Jul 1;4(7):604-10. doi: 10.1016/s0960-9822(00)00132-9.

DOI:10.1016/s0960-9822(00)00132-9

PMID:7953534

Abstract

BACKGROUND

Earlier work with neurological patients has shown that the visual perception of object size and orientation depends on visual pathways in the cerebral cortex that are separate from those mediating the use of these same object properties in the control of goal-directed grasping. We present evidence suggesting that the same dissociation between perception and action is evident in the visual processing of object shape. In other words, discrimination between objects on the basis of their shape appears to be mediated by visual mechanisms that are functionally and neurally distinct from those controlling the pre-shaping of the hand during grasping movements directed at those same objects.

RESULTS

We studied two patients with lesions in different parts of the cerebral visual pathways. One patient (RV), who had sustained bilateral lesions of the occipitoparietal cortex, was unable to use visual information to place her fingers correctly on the circumference of irregularly shaped objects when asked to pick them up, even though she had no difficulty in visually discriminating one such object from another. Conversely, a second patient (DF), who had bilateral damage in the ventrolateral occipital region, had no difficulty in placing her fingers on appropriate opposition points during grasping, even though she was unable to discriminate visually amongst such objects.

CONCLUSIONS

This double dissociation lends strong support to the idea that the visual mechanisms mediating the perception of objects are functionally and neurally distinct from those mediating the control of skilled actions directed at those objects. It also supports the recent proposal of Goodale and Milner that visual perception depends on a ventral stream of projections from the primary visual cortex to the inferotemporal cortex, whereas the visual control of skilled actions depends on a dorsal stream from the primary visual cortex to the posterior parietal cortex.

摘要

背景

早期针对神经疾病患者的研究表明，对物体大小和方向的视觉感知依赖于大脑皮层中的视觉通路，这些通路与在目标导向抓握控制中介导使用相同物体属性的通路是分开的。我们提供的证据表明，在物体形状的视觉处理中，感知与行动之间同样存在分离。换句话说，基于形状对物体进行区分似乎是由视觉机制介导的，这些机制在功能和神经方面与在针对相同物体的抓握运动中控制手部预塑形的机制不同。

结果

我们研究了两名大脑视觉通路不同部位受损的患者。一名患者（RV）枕顶叶皮层双侧受损，当被要求拿起不规则形状的物体时，她无法利用视觉信息将手指正确地放在物体边缘，尽管她在视觉上区分此类物体没有困难。相反，另一名患者（DF）枕叶腹外侧区域双侧受损，在抓握过程中，她能轻松地将手指放在合适的对应点上，尽管她无法通过视觉区分这些物体。

结论

这种双重分离有力地支持了以下观点，即介导物体感知的视觉机制在功能和神经方面与介导针对这些物体的熟练动作控制的机制不同。它也支持了古德尔和米尔纳最近提出的观点，即视觉感知依赖于从初级视觉皮层到颞下皮层的腹侧投射流，而熟练动作的视觉控制依赖于从初级视觉皮层到后顶叶皮层的背侧投射流。

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用于在感知和抓握中对物体形状进行视觉分析的独立神经通路。

Separate neural pathways for the visual analysis of object shape in perception and prehension.

作者信息

机构信息

出版信息

BACKGROUND

RESULTS

CONCLUSIONS

背景

结果

结论

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