期刊
NEUROSCIENTIST
卷 25, 期 4, 页码 298-313出版社
SAGE PUBLICATIONS INC
DOI: 10.1177/1073858418805427
关键词
whisking; spontaneous activity; resting-state; sensorimotor; twitch
资金
- National Institutes of Health [R01NS078168, RF1MH114224, R01NS079737]
Animals and humans continuously engage in small, spontaneous motor actions, such as blinking, whisking, and postural adjustments (fidgeting). These movements are accompanied by changes in neural activity in sensory and motor regions of the brain. The frequency of these motions varies in time, is affected by sensory stimuli, arousal levels, and pathology. These fidgeting behaviors can be entrained by sensory stimuli. Fidgeting behaviors will cause distributed, bilateral functional activation in the 0.01 to 0.1 Hz frequency range that will show up in functional magnetic resonance imaging and wide-field calcium neuroimaging studies, and will contribute to the observed functional connectivity among brain regions. However, despite the large potential of these behaviors to drive brain-wide activity, these fidget-like behaviors are rarely monitored. We argue that studies of spontaneous and evoked brain dynamics in awake animals and humans should closely monitor these fidgeting behaviors. Differences in these fidgeting behaviors due to arousal or pathology will contaminate ongoing neural activity, and lead to apparent differences in functional connectivity. Monitoring and accounting for the brain-wide activations by these behaviors is essential during experiments to differentiate fidget-driven activity from internally driven neural dynamics.
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