低频与γ振荡之间的跨频率耦合在抑郁症的认知生物型中发生改变。
Cross-frequency coupling between low frequency and gamma oscillations altered in cognitive biotype of depression.
作者信息
Wang Hongli, Shi Xiaoning, Wang Chenyang, Qi Yongsheng, Gao Michel, Zhao Yingying
机构信息
Beijing Key Laboratory of Mental Disorders, National Clinical Research Center for Mental Disorders & National Center for Mental Disorders, Beijing Anding Hospital, Capital Medical University, Beijing, China.
Advanced Innovation Center for Human Brain Protection & Laboratory for Clinical Medicine, Capital Medical University, Beijing, China.
出版信息
Front Psychiatry. 2025 Jun 10;16:1596191. doi: 10.3389/fpsyt.2025.1596191. eCollection 2025.
AIM
The cognitive biotype of depression has been conceptualized as a distinct subtype characterized by unique distinct neural correlates and specific clinical features. Abnormal neural oscillations related to cognitive dysfunction have been extensively studied, with particular attention given to gamma oscillations due to their crucial role in neurocircuit operations, emotional processing, and cognitive functions. Nevertheless, cross-frequency coupling between low frequency and gamma oscillations in the cognitive biotype of depression have yet to be fully elucidated.
METHOD
The study identified the cognitive biotype in depression by MATRICS Consensus Cognitive Battery (MCCB). We enrolled 141 depressed patients in remission, including 56 identified as cognitive biotype and 85 as the non-cognitive impairment subgroup. Cross-frequency coupling between low frequency and gamma oscillations were analyzed using specific computational methods based on the data collected by Electroencephalogram (EEG). Furthermore, we did correlation analysis to explore the relationship between cross-frequency coupling of neural oscillations with cognitive function in depression.
RESULTS
We found that phase-amplitude coupling (PAC) values decreased in cognitive biotype. Specifically, cross-frequency coupling between theta (Pz: t =-3.512, FDR-corrected p = 0.011), alpha (P3: t =-3.377, FDR-corrected p = 0.009; Pz: t =-3.451, FDR-corrected p = 0.009), beta (P3: t =-3.129, FDR-corrected p = 0.020; Pz: t =-3.333, FDR-corrected p = 0.020) with low gamma decreased at eyes-closed state in cognitive biotype. However, cross-frequency coupling between delta with gamma increased in cognitive biotype (P4: = 3.314, FDR-corrected p = 0.022) While cross-frequency coupling exhibited no significant differences at eyes-opened state in two subgroups (FDR-corrected p > 0.05). Furthermore, significant correlations between cognitive function and cross-frequency coupling at eyes-closed state were observed.
CONCLUSION
These results indicated that the cross-frequency coupling between low frequency and gamma occurred in the parietal lobe in cognitive biotype of depression. These results advance the understanding of neurophysiological mechanisms underlying cognitive deficits and highlight potential biomarkers for precision depression.
目的
抑郁症的认知生物型已被概念化为一种独特的亚型,其特征是具有独特的神经关联和特定的临床特征。与认知功能障碍相关的异常神经振荡已得到广泛研究,由于其在神经回路运作、情绪处理和认知功能中的关键作用,伽马振荡受到了特别关注。然而,抑郁症认知生物型中低频与伽马振荡之间的交叉频率耦合尚未完全阐明。
方法
该研究通过MATRICS共识认知成套测验(MCCB)确定抑郁症中的认知生物型。我们招募了141名处于缓解期的抑郁症患者,其中56名被确定为认知生物型,85名作为非认知障碍亚组。基于脑电图(EEG)收集的数据,使用特定的计算方法分析低频与伽马振荡之间的交叉频率耦合。此外,我们进行了相关性分析,以探讨抑郁症中神经振荡的交叉频率耦合与认知功能之间的关系。
结果
我们发现认知生物型中的相位-振幅耦合(PAC)值降低。具体而言,在闭眼状态下,认知生物型中theta(Pz:t = -3.512,FDR校正p = 0.011)、alpha(P3:t = -3.377,FDR校正p = 0.009;Pz:t = -3.451,FDR校正p = 0.009)、beta(P3:t = -3.129,FDR校正p = 0.020;Pz:t = -3.333,FDR校正p = 0.020)与低伽马之间的交叉频率耦合降低。然而,认知生物型中delta与伽马之间的交叉频率耦合增加(P4:t = 3.314,FDR校正p = 0.022)。而在睁眼状态下,两个亚组的交叉频率耦合无显著差异(FDR校正p > 0.05)。此外,在闭眼状态下观察到认知功能与交叉频率耦合之间存在显著相关性。
结论
这些结果表明,抑郁症认知生物型中低频与伽马之间的交叉频率耦合发生在顶叶。这些结果推进了对认知缺陷潜在神经生理机制的理解,并突出了精准抑郁症的潜在生物标志物。
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