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Causal Evidence for a Neural Component of Spatially Global Hemodynamic Signals.
Neuron ( IF 16.2 ) Pub Date : 2018-Feb-21 , DOI: 10.1016/j.neuron.2018.02.003
Kathrin Müsch , Christopher J. Honey

In this issue of Neuron, Turchi et al. (2018) reversibly inactivate the basal forebrain to show that this region magnifies global neocortical signal fluctuations without altering the topography of canonical resting-state networks. Thus, spatially diffuse signals measurable via functional neuroimaging may track large-scale neuromodulatory state changes in the primate brain.

中文翻译:

空间整体血流动力学信号神经成分的因果证据。

在本期《神经元》中,Turchi等人。(2018)可逆地使基底前脑失活,表明该区域在不改变规范静止状态网络拓扑的情况下放大了全球新皮质信号的波动。因此,可通过功能性神经成像测量的空间弥散信号可跟踪灵长类动物大脑中的大规模神经调节状态变化。
更新日期:2018-02-22
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