θ-γ耦合与排序信息:跨认知任务和临床状况的稳定脑-行为关系。
Theta-gamma coupling and ordering information: a stable brain-behavior relationship across cognitive tasks and clinical conditions.
作者信息
Brooks Heather, Goodman Michelle S, Bowie Christopher R, Zomorrodi Reza, Blumberger Daniel M, Butters Meryl A, Daskalakis Zafiris J, Fischer Corinne E, Flint Alastair, Herrmann Nathan, Kumar Sanjeev, Mah Linda, Mulsant Benoit H, Pollock Bruce G, Voineskos Aristotle N, Rajji Tarek K
机构信息
Campbell Family Mental Health Research Institute, Centre for Addiction and Mental Health, Toronto, ON, Canada.
Adult Neurodevelopment and Geriatric Psychiatry Division, Centre for Addiction and Mental Health, Toronto, ON, Canada.
出版信息
Neuropsychopharmacology. 2020 Nov;45(12):2038-2047. doi: 10.1038/s41386-020-0759-z. Epub 2020 Jul 18.
Ordering of information is a critical component that underlies several cognitive functions. Prefrontal theta-gamma coupling (TGC) is a neurophysiologic measure associated with ordering of information during the performance of a working memory task (N-back). Little is known about the relationship between TGC and ordering during other cognitive tasks or whether the relationship between TGC and ordering of information is independent of clinical condition. This study aimed to determine whether the relationship between TGC and ordering of information exists independent of a task and its timing, and whether this relationship is the same in different clinical conditions. A total of 311 participants were assessed using a neuropsychological battery that included the N-back during which TGC was measured; two other tasks that also require ordering; and three tests that do not require ordering. All non-N-back tasks were completed several days separate from the N-back by a mean interval (SD) of 5.14 (8.03). Our three hypotheses were that TGC during the N-back task would be associated with performance on N-Back and other cognitive tasks that also require ordering, but not with performance on cognitive tasks that do not require ordering; and that these relationships will be independent of clinical diagnosis. Multivariate linear regression results show that TGC was associated with performance on the ordering tasks but not the non-ordering tasks. In addition, there was no interaction between TGC and diagnosis. Our study is the first to demonstrate that TGC is a neurophysiologic measure of ordering information across several cognitive tasks that require ordering, and this TGC-ordering relationship is stable over time even when several days separate the measurement of TGC and the performance of the ordering tasks. Our results also show that this relationship is independent of clinical diagnosis, supporting the brain-behavior nature of this relationship. These results highlight the importance of TGC in ordering-based cognition, and suggest that TGC could be a valid target for interventions that aim to enhance this function across cognitive tasks and clinical conditions.
信息排序是多种认知功能的关键组成部分。前额叶θ-γ耦合(TGC)是一种神经生理学指标,与执行工作记忆任务(n-back)时的信息排序相关。对于TGC与其他认知任务中的排序之间的关系,或者TGC与信息排序之间的关系是否独立于临床状况,人们知之甚少。本研究旨在确定TGC与信息排序之间的关系是否独立于任务及其时间安排,以及这种关系在不同临床状况下是否相同。共有311名参与者接受了一套神经心理学测试,其中包括测量TGC的n-back任务;另外两项也需要排序的任务;以及三项不需要排序的测试。所有非n-back任务与n-back任务分开几天完成,平均间隔(标准差)为5.14(8.03)。我们的三个假设是,n-back任务期间的TGC将与n-back任务以及其他也需要排序的认知任务的表现相关,但与不需要排序的认知任务的表现无关;并且这些关系将独立于临床诊断。多元线性回归结果表明,TGC与排序任务的表现相关,但与非排序任务无关。此外,TGC与诊断之间没有交互作用。我们的研究首次证明,TGC是跨多个需要排序的认知任务进行信息排序的神经生理学指标,即使TGC测量与排序任务执行相隔数天,这种TGC与排序的关系随时间推移也是稳定的。我们的结果还表明,这种关系独立于临床诊断,支持了这种关系的脑-行为本质。这些结果突出了TGC在基于排序的认知中的重要性,并表明TGC可能是旨在增强跨认知任务和临床状况的这种功能的干预措施的有效靶点。
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