神经科学
默认模式网络
钙显像
心理学
意识
计算机科学
功能磁共振成像
阈下刺激
衰减
运动前神经元活动
沟通
歪斜
对象(语法)
分层数据库模型
物理
信号(编程语言)
大脑活动与冥想
大脑定位
神经网络
模式(计算机接口)
作者
Adam R. Pines,Xue Zhang,John Kochalka,Sam Vesuna,Isaac Kauvar,Divya Rajasekharan,T. Rick Reneau,Teddy J. Akiki,Laura M. Hack,Joshua S. Siegel,Leanne M. Williams
标识
DOI:10.1073/pnas.2522000123
摘要
Psychedelic drugs are poised to become mainstream treatments, yet we lack a circuit-level account of how they reshape brain activity. Emerging evidence suggests that multiple psychedelic compounds modulate activity in the brain's default mode network (DMN), often interpreted as either increased or decreased bottom-up hierarchical processing. Most imaging studies, however, quantify activity as if it were stationary, remaining agnostic to the ascending or descending movements of activity that defines hierarchical processing. Here, we adapt optical flow analyses to track frame-to-frame trajectories of DMN activity across four independent datasets (humans and mice; methylenedioxymethamphetamine, psilocybin, and lysergic acid diethylamide; nine drug-vs.-control contrasts). In functional magnetic resonance and calcium imaging, all psychedelics attenuate signal flow magnitude and bottom-up directionality within the DMN. Propagation attenuation is not attributable to data quality or previously documented effects of psychedelics and is uniquely associated with self-reported outcomes. This replicable and generalizable attenuation of bottom-up cortical propagations provides fundamental clarification of the effects of psychedelics on macroscale hierarchical processing.
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