Institute of Psychology, University of Muenster, Muenster, Germany.
Neuropsychology. 2013 Jan;27(1):60-8. doi: 10.1037/a0031300.
Smooth pursuit eye movements are compromised in patients with schizophrenia and their first-degree relatives. Although research has demonstrated that the motor components of smooth pursuit eye movements are intact, motion perception has been shown to be impaired. In particular, studies have consistently revealed deficits in performance on tasks specific to the high-order motion area V5 (middle temporal area, MT) in patients with schizophrenia. In contrast, data from low-level motion detectors in the primary visual cortex (V1) have been inconsistent.
To differentiate between low-level and high-level visual motion processing, we applied a temporal-order judgment task for motion events and a motion-defined figure-ground segregation task using patients with schizophrenia and healthy controls. Successful judgments in both tasks rely on the same low-level motion detectors in the V1; however, the first task is further processed in the higher-order motion area MT in the magnocellular (dorsal) pathway, whereas the second task requires subsequent computations in the parvocellular (ventral) pathway in visual area V4 and the inferotemporal cortex (IT). These latter structures are supposed to be intact in schizophrenia.
Patients with schizophrenia revealed a significantly impaired temporal resolution on the motion-based temporal-order judgment task but only mild impairment in the motion-based segregation task.
These results imply that low-level motion detection in V1 is not, or is only slightly, compromised; furthermore, our data restrain the locus of the well-known deficit in motion detection to areas beyond the primary visual cortex.
精神分裂症患者及其一级亲属的平滑追踪眼动会受到影响。虽然研究表明平滑追踪眼动的运动成分完好无损,但运动感知能力已被证明存在障碍。特别是,研究一致表明精神分裂症患者在特定于高阶运动区域 V5(颞中区域,MT)的任务上表现出缺陷。相比之下,初级视觉皮层(V1)中的低阶运动探测器的数据则不一致。
为了区分低阶和高阶视觉运动处理,我们应用了一个用于运动事件的时间顺序判断任务和一个用于运动定义的图形-背景分离任务,同时使用精神分裂症患者和健康对照组。这两个任务的成功判断都依赖于 V1 中的相同的低阶运动探测器;然而,第一个任务在大细胞(背侧)通路中的高阶运动区域 MT 中进一步处理,而第二个任务需要在视觉区域 V4 和颞下皮质(IT)中的小细胞(腹侧)通路中进行后续计算。这些后结构在精神分裂症中被认为是完整的。
精神分裂症患者在基于运动的时间顺序判断任务上表现出明显的时间分辨率受损,但在基于运动的分离任务上仅表现出轻度受损。
这些结果表明,V1 中的低阶运动检测没有受到影响,或者仅受到轻微影响;此外,我们的数据限制了运动检测的著名缺陷的位置在初级视觉皮层之外的区域。
