ERP Decoding Analysis of Visual Working Memory Processes in Schizophrenia.

IF 3.5 Q3 PSYCHIATRY

Alpha psychiatry Pub Date : 2026-02-25 eCollection Date: 2026-02-01 DOI:10.31083/AP42597

Zhongsi Wang, Chunlei Liu, Yuyan Jing, Zhenzhen Yao, Min Chen

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Abstract

Background: Deficits in visual working memory (vWM) represent a core cognitive impairment in schizophrenia; however, the dynamic spatiotemporal characterization of their underlying neural mechanisms remains unclear. The present study employed multivariate pattern classification (MVPC) and searchlight analysis to investigate neural signaling differences between patients with schizophrenia (PSZ) and healthy control subjects (HCS) during a vWM task.

Methods: A total of 46 participants (22 PSZ, 24 HCS) completed a change detection task comprising three conditions: two targets, zero distractors (2T0D); two targets, two distractors (2T2D); and four targets, zero distractors (4T0D). Contralateral delay activity (CDA) was extracted through event-related potential (ERP) analysis. MVPC was applied in the temporal dimension, while a searchlight approach was employed in the spatial dimension to decode memory load (2T0D/2T2D/4T0D) and memory side (left/right) information.

Results: CDA amplitude was significantly reduced in the PSZ group, particularly in the 2T2D condition (p = 0.01), indicating that the scope and control of attention elicited comparable CDA amplitudes. MVPC analysis revealed that decoding accuracy in the PSZ group was significantly lower than in the HCS group during the time window of 93-652 ms (p _corrected < 0.05), suggesting diminished efficiency of neural information encoding during the delay period. The searchlight analysis identified the most pronounced decrease in decoding accuracy within the left parietal region in the PSZ group, consistent with the hypothesis of abnormal functional connectivity in the inferior parietal gyrus (IPG).

Conclusions: This study reveals the spatiotemporal dynamics of vWM deficits in schizophrenia, characterized by ERP decoding technology. It offers a novel target for the development of neuromarker-based cognitive interventions.

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精神分裂症视觉工作记忆过程的ERP解码分析。

背景：视觉工作记忆缺陷（vWM）是精神分裂症的核心认知障碍；然而，其潜在的神经机制的动态时空特征仍不清楚。本研究采用多变量模式分类（MVPC）和探照灯分析（searchlight analysis）研究精神分裂症患者（PSZ）和健康对照（HCS）在vWM任务中的神经信号差异。方法：46名被试（22名PSZ， 24名HCS）完成一项变化检测任务，该任务包括三个条件：两个目标，零干扰（2T0D）；两个目标，两个干扰物（2T2D）；4个目标，零干扰（4T0D）。通过事件相关电位（ERP）分析提取对侧延迟活动（CDA）。在时间维度上采用MVPC方法，在空间维度上采用探照灯方法解码记忆负载（2T0D/2T2D/4T0D）和记忆侧（左/右）信息。结果：PSZ组CDA振幅显著降低，特别是在2T2D条件下（p = 0.01），说明注意范围和控制引起的CDA振幅具有可比性。MVPC分析显示，在93 ~ 652 ms的时间窗内，PSZ组的解码准确率显著低于HCS组（p校正< 0.05），说明延迟期神经信息编码效率降低。探照灯分析发现，PSZ组左顶叶区域的解码准确性下降最为明显，这与顶叶下回（IPG）功能连接异常的假设一致。结论：本研究揭示了以ERP解码技术为特征的精神分裂症vWM缺陷的时空动态。它为基于神经标志物的认知干预的发展提供了一个新的目标。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Alpha psychiatry

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