在 n-back 工作记忆范式期间，功能性脑网络的连接密度和模块性降低。

Decreased connection density and modularity of functional brain networks during n-back working memory paradigm.

机构信息

Department of Physiology, Semmelweis University, Budapest, Hungary.

出版信息

Brain Behav. 2021 Jan;11(1):e01932. doi: 10.1002/brb3.1932. Epub 2020 Nov 13.

DOI:10.1002/brb3.1932

PMID:33185986

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7821619/

Abstract

INTRODUCTION

Investigating how the brain adapts to increased mental workload through large-scale functional reorganization appears as an important research question. Functional connectivity (FC) aims at capturing how disparate regions of the brain dynamically interact, while graph theory provides tools for the topological characterization of the reconstructed functional networks. Although numerous studies investigated how FC is altered in response to increased working memory (WM) demand, current results are still contradictory as few studies confirmed the robustness of these findings in a low-density setting.

METHODS

In this study, we utilized the n-back WM paradigm, in which subjects were presented stimuli (single digits) sequentially, and their task was to decide for each given stimulus if it matched the one presented n-times earlier. Electroencephalography recordings were performed under a control (0-back) and two task conditions of varying difficulty (2- and 3-back). We captured the characteristic connectivity patterns for each difficulty level by performing FC analysis and described the reconstructed functional networks with various graph theoretical measures.

RESULTS

We found a substantial decrease in FC when transitioning from the 0- to the 2- or 3-back conditions, however, no differences relating to task difficulty were identified. The observed changes in brain network topology could be attributed to the dissociation of two (frontal and occipitotemporal) functional modules that were only present during the control condition. Furthermore, behavioral and performance measures showed both positive and negative correlations to connectivity indices, although only in the higher frequency bands.

CONCLUSION

The marked decrease in FC may be due to temporarily abandoned connections that are redundant or irrelevant in solving the specific task. Our results indicate that FC analysis is a robust tool for investigating the response of the brain to increased cognitive workload.

摘要

简介

研究大脑如何通过大规模的功能重组来适应增加的心理工作量，这似乎是一个重要的研究问题。功能连接（FC）旨在捕捉大脑不同区域如何动态地相互作用，而图论则为重建功能网络的拓扑特征提供了工具。尽管许多研究都调查了 FC 如何响应增加的工作记忆（WM）需求而发生变化，但由于很少有研究在低密度设置中证实这些发现的稳健性，目前的结果仍然存在矛盾。

方法

在这项研究中，我们利用 n-back WM 范式，在此范式中，受试者会按顺序呈现刺激（单个数字），并要求他们判断每个给定的刺激是否与之前呈现的 n 个刺激匹配。在控制（0 回）和两个难度不同的任务条件（2 回和 3 回）下进行脑电记录。我们通过执行 FC 分析来捕捉每个难度水平的特征连接模式，并使用各种图论度量来描述重建的功能网络。

结果

我们发现，当从 0 回过渡到 2 回或 3 回时，FC 显著降低，但没有发现与任务难度相关的差异。观察到的大脑网络拓扑结构的变化可归因于两个（额和枕颞）功能模块的分离，这些模块仅在控制条件下存在。此外，行为和表现测量与连接指数呈正相关和负相关，尽管仅在较高的频率带中。

结论

FC 的明显下降可能是由于暂时放弃了在解决特定任务中冗余或不相关的连接。我们的结果表明，FC 分析是研究大脑对增加的认知工作量的反应的一种稳健工具。

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在 n-back 工作记忆范式期间，功能性脑网络的连接密度和模块性降低。

Decreased connection density and modularity of functional brain networks during n-back working memory paradigm.

机构信息

出版信息

INTRODUCTION

METHODS

RESULTS

CONCLUSION

简介

方法

结果

结论

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