Center for Mind/Brain Sciences-CIMeC, University of Trento, Rovereto, Italy.
Neurophysiology Lab, IRCCS Istituto Centro San Giovanni di Dio Fatebenefratelli, Brescia, Italy.
Neuroscientist. 2020 Oct-Dec;26(5-6):471-486. doi: 10.1177/1073858420916452. Epub 2020 May 9.
The human brain is a complex network in which hundreds of brain regions are interconnected via thousands of axonal pathways. The capability of such a complex system emerges from specific interactions among smaller entities, a set of events that can be described by the activation of interconnections between brain areas. Studies that focus on brain connectivity have the aim of understanding and modeling brain function, taking into account the spatiotemporal dynamics of neural communication between brain regions. Much of the current knowledge regarding brain connectivity has been obtained from stand-alone neuroimaging methods. Nevertheless, the use of a multimodal approach seems to be a powerful way to investigate effective brain connectivity, overcoming the limitations of unimodal approaches. In this review, we will present the advantages of an integrative approach in which transcranial magnetic stimulation-electroencephalography coregistration is combined with magnetic resonance imaging methods to explore effective neural interactions. Moreover, we will describe possible implementations of the integrative approach in open- and closed-loop frameworks where real-time brain activity becomes a contributor to the study of cognitive brain networks.
人脑是一个复杂的网络,其中数百个脑区通过数千条轴突通路相互连接。这种复杂系统的能力源自于较小实体之间的特定相互作用,一系列事件可以通过大脑区域之间的连接激活来描述。关注大脑连接性的研究旨在理解和建模大脑功能,同时考虑到大脑区域之间神经通讯的时空动态。目前关于大脑连接性的大部分知识都是通过独立的神经影像学方法获得的。然而,使用多模态方法似乎是研究有效大脑连接性的一种有力方式,可以克服单模态方法的局限性。在这篇综述中,我们将介绍将经颅磁刺激-脑电图配准与磁共振成像方法相结合以探索有效神经相互作用的综合方法的优势。此外,我们将描述在开环和闭环框架中综合方法的可能实现方式,其中实时大脑活动成为认知大脑网络研究的一个贡献因素。
