Gamma oscillations of visual cortex underlying emotion and cognition deficits associated with suicide attempt in major depressive disorder

Nature mental health Pub Date : 2024-06-21 DOI:10.1038/s44220-024-00269-3

Zhongpeng Dai, Wei Zhang, Hongliang Zhou, Siqi Zhang, Zhilu Chen, Zhijian Yao, Qing Lu

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Abstract

Altered neural oscillations in response to negative or positive emotional stimuli may be related to severe clinical symptoms in patients with major depressive disorder, particularly high suicidality. However, the underlying neurobiological mechanisms of this aberrant oscillatory activity and its potential emotional and cognitive functions remain unclear. Here we conducted a cross-sectional study of 107 participants, including 40 healthy controls and 67 patients with major depressive disorder (33 with suicide attempts and 34 without). All participants underwent an emotional expression recognition task during the magnetoencephalography scanning and completed neurocognitive assessments. Time–frequency characteristics and phase connections were analysed and compared between groups in sensor and source space using cluster-based permutation tests. The association between abnormal oscillatory features and neurocognitive performance was also evaluated. We found that increased gamma oscillations (50–70 Hz) of the visual cortices were considerably associated with suicide attempts in depression. Moreover, gamma-band source power in happy or sad conditions could predict individualized suicide risk. Gamma-band phase connections under the happy or sad condition were related to deficits in large-scale cognitive functions. Overall, gamma oscillations of the visual areas induced by the emotional stimuli were reliable biomarkers for identifying suicide attempts in depressive patients. Abnormal gamma-band connection involving visual cortex under both happy and sad expressions were significantly correlated with broad cognitive deficits. The authors investigate neural oscillations, measured by magnetoencephalography, in response to emotionally valenced stimuli as a potential biomarker characterizing individuals with major depressive disorder who had previously made a suicide attempt.

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视觉皮层的伽马振荡是与重度抑郁障碍患者自杀未遂相关的情绪和认知障碍的基础

对消极或积极情绪刺激做出反应的神经振荡改变可能与重度抑郁症患者的严重临床症状有关，尤其是高自杀率。然而，这种异常振荡活动的潜在神经生物学机制及其潜在的情绪和认知功能仍不清楚。在此，我们对 107 名参与者进行了横断面研究，其中包括 40 名健康对照者和 67 名重度抑郁症患者（33 人有自杀企图，34 人没有）。所有参与者都在脑磁图扫描过程中接受了情绪表达识别任务，并完成了神经认知评估。使用基于聚类的置换检验分析了时间频率特性和相位连接，并在传感器和源空间中对不同组别进行了比较。我们还评估了异常振荡特征与神经认知表现之间的关联。我们发现，视觉皮层伽马振荡（50-70 赫兹）的增加与抑郁症患者的自杀企图有很大关系。此外，快乐或悲伤状态下的γ波段源功率可预测个体化的自杀风险。快乐或悲伤状态下的伽γ波段相位连接与大规模认知功能的缺陷有关。总体而言，情绪刺激诱发的视觉区域伽马振荡是识别抑郁症患者自杀企图的可靠生物标志物。在快乐和悲伤两种表情下，涉及视觉皮层的异常伽玛波段连接与广泛的认知缺陷有显著相关性。作者研究了通过脑磁图测量的神经振荡对情绪化刺激的反应，并将其作为一种潜在的生物标志物，用于描述曾试图自杀的重度抑郁症患者的特征。

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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Nature mental health

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