School of Psychological and Cognitive Sciences, Peking University, Beijing, China.
Beijing Key Laboratory of Behavior and Mental Health, Peking University, Beijing, China.
Psych J. 2024 Dec;13(6):885-892. doi: 10.1002/pchj.787. Epub 2024 Jul 17.
Patients with lesions in the visual cortex are blind in corresponding regions of the visual field, but they still may process visual information, a phenomenon referred to as residual vision or "blindsight". Here we report behavioral and fMRI observations with a patient who reports conscious vision across an extended area of blindness for moving, but not for stationary stimuli. This completion effect is shown to be of perceptual and not of conceptual origin, most likely mediated by spared representations of the visual field in the striate cortex. The neural output to extra-striate areas from regions of the deafferented striate cortex is apparently still intact; this is, for instance, indicated by preserved size constancy of visually completed stimuli. Neural responses as measured with fMRI reveal an activation only for moving stimuli, but importantly on the ipsilateral side of the brain. In a conceptual model this shift of activation to the "wrong" hemisphere is explained on the basis of an imbalance of excitatory and inhibitory interactions within and between the striate cortices due to the brain injury. The observed neuroplasticity indicated by this shift together with the behavioral observations provide important new insights into the functional architecture of the human visual system and provide new insight into the concept of consciousness.
患者的病变在视觉皮层是盲目的在相应的区域的视野,但他们仍然可能处理视觉信息,这一现象被称为残余视力或“盲目”。在这里,我们报告的行为和 fMRI 的观察与病人报告的有意识的视觉跨越扩展区域的盲目性为移动,但不是为固定的刺激。这种完成效应是表现出知觉的,而不是概念的起源,很可能是由纹状皮层中视觉区域的保留表示介导的。从去传入的纹状皮层区域到外纹状皮层的神经输出显然仍然是完整的;这是,例如,表明保留的大小恒常性的视觉完成的刺激。功能磁共振成像(fMRI)测量的神经反应仅显示运动刺激的激活,但重要的是在大脑的对侧。在一个概念模型中,这种激活向“错误”半球的转移是基于纹状皮层内和之间的兴奋性和抑制性相互作用的不平衡而解释的,这种不平衡是由于脑损伤引起的。这种转移所显示的神经可塑性以及行为观察为人类视觉系统的功能结构提供了重要的新见解,并为意识的概念提供了新的见解。
