滞后线程组织大脑的内在活动。

Lag threads organize the brain's intrinsic activity.

作者信息

Mitra Anish, Snyder Abraham Z, Blazey Tyler, Raichle Marcus E

机构信息

Departments of Radiology and

Departments of Radiology and Neurology, Washington University, St. Louis, MO 63110.

出版信息

Proc Natl Acad Sci U S A. 2015 Apr 28;112(17):E2235-44. doi: 10.1073/pnas.1503960112. Epub 2015 Mar 30.

DOI:10.1073/pnas.1503960112

PMID:25825720

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4418865/

Abstract

It has been widely reported that intrinsic brain activity, in a variety of animals including humans, is spatiotemporally structured. Specifically, propagated slow activity has been repeatedly demonstrated in animals. In human resting-state fMRI, spontaneous activity has been understood predominantly in terms of zero-lag temporal synchrony within widely distributed functional systems (resting-state networks). Here, we use resting-state fMRI from 1,376 normal, young adults to demonstrate that multiple, highly reproducible, temporal sequences of propagated activity, which we term "lag threads," are present in the brain. Moreover, this propagated activity is largely unidirectional within conventionally understood resting-state networks. Modeling experiments show that resting-state networks naturally emerge as a consequence of shared patterns of propagation. An implication of these results is that common physiologic mechanisms may underlie spontaneous activity as imaged with fMRI in humans and slowly propagated activity as studied in animals.

摘要

已有广泛报道称，包括人类在内的多种动物的大脑内在活动在时空上是有结构的。具体而言，动物体内反复出现了传播性慢活动。在人类静息态功能磁共振成像（fMRI）中，自发活动主要是根据广泛分布的功能系统（静息态网络）内的零滞后时间同步来理解的。在此，我们使用1376名正常年轻成年人的静息态fMRI来证明大脑中存在多个高度可重复的传播活动时间序列，我们将其称为“滞后线程”。此外，这种传播活动在传统理解的静息态网络内很大程度上是单向的。模型实验表明，静息态网络是传播共享模式的自然结果。这些结果意味着，共同的生理机制可能是人类fMRI成像的自发活动和动物研究中的缓慢传播活动的基础。

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