Lee Junghee, Cohen Mark S, Engel Stephen A, Glahn David, Nuechterlein Keith H, Wynn Jonathan K, Green Michael F
Semel Institute for Neuroscience and Human Behavior, University of California Los Angeles, Los Angeles, California; Veterans Affairs Greater Los Angeles Healthcare System, Los Angeles, California.
Hum Brain Mapp. 2014 Sep;35(9):4654-62. doi: 10.1002/hbm.22501. Epub 2014 Mar 28.
Despite a well-known behavioral finding of visual backward masking impairment in schizophrenia, its underlying neural mechanism remains obscure. This study examined neural correlates of a distinct type of visual backward masking, object substitution masking (OSM), in schizophrenia. Twenty schizophrenia patients and 26 healthy controls completed a 4-Dot OSM task and three functional localizer tasks for the lateral occipital (LO), human motion-sensitive (hMT+), and retinotopic areas in the scanner. In 4-dot masking, subjects detected a target that was followed by a mask consisting of 4 dots that surrounded a target. Stimulus-onset asynchrony (SOA) between target and mask was varied to examine the modulation of masking: (1) within three visual processing areas regions of interest (ROI) (i.e., ROI analysis) and (2) in brain regions outside the three visual processing areas (i.e., whole brain analysis). In the ROI analyses, LO and retinotopic areas showed increased peak amplitude when SOA become longer in both patients and controls. There was also an effect of ROI in that both groups showed higher activation in LO and hMT+ compared with the retinotopic areas. The whole brain analyses revealed a significantly activated area for longer SOAs vs. a short SOA in the occipital cortex in controls only, but the group contrast was not significant. Overall, this study did not find strong evidence for neural abnormalities of OSM in schizophrenia, suggesting that neural substrates of OSM in schizophrenia are not as compromised as those involved in the more common masking methods that rely on disruption of object formation.
尽管精神分裂症患者存在视觉后向掩蔽受损这一广为人知的行为学发现,但其潜在的神经机制仍不清楚。本研究考察了精神分裂症患者中一种独特类型的视觉后向掩蔽——客体替代掩蔽(OSM)的神经关联。20名精神分裂症患者和26名健康对照者在扫描仪中完成了一项四点OSM任务以及针对枕叶外侧(LO)、人类运动敏感区(hMT+)和视网膜拓扑区域的三项功能定位任务。在四点掩蔽任务中,受试者要检测一个目标,该目标之后会出现一个由围绕目标的4个点组成的掩蔽刺激。目标与掩蔽刺激之间的刺激起始异步性(SOA)会发生变化,以考察掩蔽的调节作用:(1)在三个视觉处理区域感兴趣区(ROI)内(即ROI分析)以及(2)在三个视觉处理区域之外的脑区(即全脑分析)。在ROI分析中,当SOA变长时,患者和对照者的枕叶外侧和视网膜拓扑区域的峰值振幅均增加。ROI也有影响,即与视网膜拓扑区域相比,两组在枕叶外侧和hMT+区域均表现出更高的激活。全脑分析显示,仅在对照者中,较长SOA与较短SOA相比,枕叶皮质有一个显著激活的区域,但组间对比不显著。总体而言,本研究未发现精神分裂症患者存在OSM神经异常的有力证据,这表明精神分裂症患者中OSM的神经基质不像那些依赖于破坏客体形成的更常见掩蔽方法所涉及的神经基质那样受到损害。