Department of Psychology, Durham University, Durham, UK.
Proc Biol Sci. 2012 Jun 22;279(1737):2289-98. doi: 10.1098/rspb.2011.2663. Epub 2012 Mar 28.
There are two highly interconnected clusters of visually responsive areas in the primate cortex. These two clusters have relatively few interconnections with each other, though those interconnections are undoubtedly important. One of the two main clusters (the dorsal stream) links the primary visual cortex (V1) to superior regions of the occipito-parietal cortex, while the other (the ventral stream) links V1 to inferior regions of the occipito-temporal cortex. According to our current understanding of the functional anatomy of these two systems, the dorsal stream's principal role is to provide real-time 'bottom-up' visual guidance of our movements online. In contrast, the ventral stream, in conjunction with top-down information from visual and semantic memory, provides perceptual representations that can serve recognition, visual thought, planning and memory offline. In recent years, this interpretation, initially based chiefly on studies of non-human primates and human neurological patients, has been well supported by functional MRI studies in humans. This perspective presents empirical evidence for the contention that the dorsal stream governs the visual control of movement without the intervention of visual awareness.
灵长类动物皮层中有两个高度相互关联的视觉反应区域簇。这两个簇彼此之间的相互连接相对较少,但这些相互连接无疑是重要的。两个主要簇之一(背侧流)将初级视觉皮层(V1)与顶枕叶皮层的上部区域连接起来,而另一个(腹侧流)将 V1 与枕颞叶皮层的下部区域连接起来。根据我们目前对这两个系统的功能解剖的理解,背侧流的主要作用是实时提供“自下而上”的视觉引导,在线指导我们的运动。相比之下,腹侧流与来自视觉和语义记忆的自上而下的信息相结合,提供了可以离线用于识别、视觉思维、规划和记忆的感知表示。近年来,这种解释最初主要基于对非人类灵长类动物和人类神经患者的研究,得到了人类功能磁共振成像研究的很好支持。这一观点为以下论点提供了经验证据:即背侧流在没有视觉意识干预的情况下控制视觉运动。