Department of Psychology, Kennesaw State University, Kennesaw, GA 30144, USA.
Brain. 2012 Nov;135(Pt 11):3440-52. doi: 10.1093/brain/aws272.
Brain responses (from functional magnetic resonance imaging) and components of information processing were investigated in nine cortically blind observers performing a global direction discrimination task. Three of these subjects had responses in perilesional cortex in response to blind field stimulation, whereas the others did not. We used the EZ-diffusion model of decision making to understand how cortically blind subjects make a perceptual decision on stimuli presented within their blind field. We found that these subjects had slower accumulation of information in their blind fields as compared with their good fields and to intact controls. Within cortically blind subjects, activity in perilesional tissue, V3A and hMT+ was associated with a faster accumulation of information for deciding direction of motion of stimuli presented in the blind field. This result suggests that the rate of information accumulation is a critical factor in the degree of impairment in cortical blindness and varies greatly among affected individuals. Retraining paradigms that seek to restore visual functions might benefit from focusing on increasing the rate of information accumulation.
我们研究了 9 位皮质盲患者在执行全局方向辨别任务时的大脑反应(来自功能磁共振成像)和信息处理成分。其中 3 位患者在盲区刺激时有皮层下反应,而其他患者没有。我们使用 EZ-diffusion 决策模型来理解皮质盲患者如何在盲区内做出感知决策。我们发现,与好眼和正常对照组相比,这些患者在盲区内的信息积累速度较慢。在皮质盲患者中,损伤周围组织、V3A 和 hMT+的活动与在盲区内呈现的刺激的运动方向的决策信息的快速积累有关。这一结果表明,信息积累的速度是皮质盲损伤程度的一个关键因素,而且在不同个体之间差异很大。旨在恢复视觉功能的再训练范式可能受益于关注提高信息积累的速度。