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精神病人类连接组计划:视觉神经生理学研究的设计与原理。

The psychosis human connectome project: Design and rationale for studies of visual neurophysiology.

机构信息

Department of Psychiatry and Behavioral Sciences, University of Minnesota, Minneapolis, MN, USA.

Department of Radiology, Center for Magnetic Resonance Research, University of Minnesota, Minneapolis, MN, USA; Department of Psychiatry and Behavioral Sciences, University of Minnesota, Minneapolis, MN, USA.

出版信息

Neuroimage. 2023 May 15;272:120060. doi: 10.1016/j.neuroimage.2023.120060. Epub 2023 Mar 30.

DOI:10.1016/j.neuroimage.2023.120060
PMID:36997137
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC10153004/
Abstract

Visual perception is abnormal in psychotic disorders such as schizophrenia. In addition to hallucinations, laboratory tests show differences in fundamental visual processes including contrast sensitivity, center-surround interactions, and perceptual organization. A number of hypotheses have been proposed to explain visual dysfunction in psychotic disorders, including an imbalance between excitation and inhibition. However, the precise neural basis of abnormal visual perception in people with psychotic psychopathology (PwPP) remains unknown. Here, we describe the behavioral and 7 tesla MRI methods we used to interrogate visual neurophysiology in PwPP as part of the Psychosis Human Connectome Project (HCP). In addition to PwPP (n = 66) and healthy controls (n = 43), we also recruited first-degree biological relatives (n = 44) in order to examine the role of genetic liability for psychosis in visual perception. Our visual tasks were designed to assess fundamental visual processes in PwPP, whereas MR spectroscopy enabled us to examine neurochemistry, including excitatory and inhibitory markers. We show that it is feasible to collect high-quality data across multiple psychophysical, functional MRI, and MR spectroscopy experiments with a sizable number of participants at a single research site. These data, in addition to those from our previously described 3 tesla experiments, will be made publicly available in order to facilitate further investigations by other research groups. By combining visual neuroscience techniques and HCP brain imaging methods, our experiments offer new opportunities to investigate the neural basis of abnormal visual perception in PwPP.

摘要

在精神分裂症等精神障碍中,视觉感知是异常的。除了幻觉外,实验室测试还显示出基本视觉过程的差异,包括对比敏感度、中心-环绕相互作用和知觉组织。已经提出了许多假设来解释精神障碍中的视觉功能障碍,包括兴奋和抑制之间的不平衡。然而,精神病理精神病患者(PwPP)异常视觉感知的确切神经基础仍然未知。在这里,我们描述了我们用于研究 PwPP 视觉神经生理学的行为和 7 tesla MRI 方法,这是精神分裂症人类连接组计划(HCP)的一部分。除了 PwPP(n=66)和健康对照组(n=43)外,我们还招募了一级生物亲属(n=44),以研究精神分裂症的遗传易感性对视觉感知的作用。我们的视觉任务旨在评估 PwPP 中的基本视觉过程,而磁共振波谱分析使我们能够检查神经化学,包括兴奋性和抑制性标志物。我们表明,在单个研究站点,使用大量参与者进行多个心理物理学、功能磁共振成像和磁共振波谱实验,可以收集高质量的数据。除了我们之前描述的 3 tesla 实验的数据外,这些数据也将公开提供,以便其他研究小组进一步进行研究。通过结合视觉神经科学技术和 HCP 脑成像方法,我们的实验为研究 PwPP 中异常视觉感知的神经基础提供了新的机会。

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