Hasson Uri, Nusbaum Howard C, Small Steven L
Center for Mind/Brain Sciences and Faculty of Cognitive Sciences, University of Trento, 38060 Mattarello, TN, Italy.
Proc Natl Acad Sci U S A. 2009 Jun 30;106(26):10841-6. doi: 10.1073/pnas.0903253106. Epub 2009 Jun 17.
The human brain demonstrates complex yet systematic patterns of neural activity at rest. We examined whether functional connectivity among those brain regions typically active during rest depends on ongoing and recent task demands and individual differences. We probed the temporal coordination among these regions during periods of language comprehension and during the rest periods that followed comprehension. Our findings show that the topography of this "rest network" varies with exogenous processing demands. The network encompassed more highly interconnected regions during rest than during listening, but also when listening to unsurprising vs. surprising information. Furthermore, connectivity patterns during rest varied as a function of recent listening experience. Individual variability in connectivity strength was associated with cognitive function: more attentive comprehenders demonstrated weaker connectivity during language comprehension, and a greater differentiation between connectivity during comprehension and rest. The regions we examined have generally been thought to form an invariant physiological and functional network whose activity reflects spontaneous cognitive processes. Our findings suggest that their function extends beyond the mediation of unconstrained thought, and that they play an important role in higher-level cognitive function.
人类大脑在静息状态下呈现出复杂而系统的神经活动模式。我们研究了那些在静息期间通常活跃的脑区之间的功能连接是否取决于当前和近期的任务需求以及个体差异。我们探究了在语言理解期间以及理解之后的静息期间这些脑区之间的时间协调性。我们的研究结果表明,这个“静息网络”的拓扑结构会随着外部加工需求而变化。与聆听期间相比,静息期间该网络包含更多高度互联的区域,而且在聆听不意外信息与意外信息时也是如此。此外,静息期间的连接模式会随着近期聆听体验而变化。连接强度的个体差异与认知功能相关:在语言理解过程中,注意力更集中的理解者表现出较弱的连接,并且在理解期间和静息期间的连接差异更大。我们所研究的脑区通常被认为构成了一个不变的生理和功能网络,其活动反映自发认知过程。我们的研究结果表明,它们的功能不仅限于调节无约束的思维,而且在高级认知功能中发挥重要作用。