Wen Li scite author profile

The default mode network (DMN) is the most-prominent intrinsic connectivity network, serving as a key architecture of the brain’s functional organization. Conversely, dysregulated DMN is characteristic of major neuropsychiatric disorders. However, the field still lacks mechanistic insights into the regulation of the DMN and effective interventions for DMN dysregulation. The current study approached this problem by manipulating neural synchrony, particularly alpha (8 to 12 Hz) oscillations, a dominant intrinsic oscillatory activity that has been increasingly associated with the DMN in both function and physiology. Using high-definition alpha-frequency transcranial alternating current stimulation (α-tACS) to stimulate the cortical source of alpha oscillations, in combination with simultaneous electroencephalography and functional MRI (EEG-fMRI), we demonstrated that α-tACS (versus Sham control) not only augmented EEG alpha oscillations but also strengthened fMRI and (source-level) alpha connectivity within the core of the DMN. Importantly, increase in alpha oscillations mediated the DMN connectivity enhancement. These findings thus identify a mechanistic link between alpha oscillations and DMN functioning. That transcranial alpha modulation can up-regulate the DMN further highlights an effective noninvasive intervention to normalize DMN functioning in various disorders.

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Sensing fear: fast and precise threat evaluation in human sensory cortex

Keil

2023

Trends in Cognitive Sciences

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Threat Memory in the Sensory Cortex: Insights from Olfaction

Wilson

2023

Neuroscientist

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The amygdala has long held the center seat in the neural basis of threat conditioning. However, a rapidly growing literature has elucidated extra-amygdala circuits in this process, highlighting the sensory cortex for its critical role in the mnemonic aspect of the process. While this literature is largely focused on the auditory system, substantial human and rodent findings on the olfactory system have emerged. The unique nature of the olfactory neuroanatomy and its intimate association with emotion compels a review of this recent literature to illuminate its special contribution to threat memory. Here, integrating recent evidence in humans and animal models, we posit that the olfactory (piriform) cortex is a primary and necessary component of the distributed threat memory network, supporting mnemonic ensemble coding of acquired threat. We further highlight the basic circuit architecture of the piriform cortex characterized by distributed, auto-associative connections, which is prime for highly efficient content-addressable memory computing to support threat memory. Given the primordial role of the piriform cortex in cortical evolution and its simple, well-defined circuits, we propose that olfaction can be a model system for understanding (transmodal) sensory cortical mechanisms underlying threat memory.

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Editorial: Frontiers of women in brain imaging and brain stimulation

Fang

Bai

2023

Front. Hum. Neurosci.

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Sensing fear: Fast-and-precise threat evaluation in human sensory cortex

Li¹,

Keil²

2022

Preprint

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Animal models of threat processing have evolved beyond the amygdala to incorporate a distributed neural network. In human research, evidence has intensified in recent years to challenge the canonical threat circuitry centered on the amygdala, urging revision of threat conceptualization. A strong surge of research into threat processing in the sensory cortex in the past decade has generated particularly useful insights to inform the re-conceptualization. Here, synthesizing findings from both animal and human research, we highlight sensitive, specific, and adaptable threat representations in sensory cortex, arising from experience-based sculpting of sensory coding networks. We thus propose that the human sensory cortex is capable of “smart” (fast and precise threat) evaluation, resulting in threat-imbued sensory cascades to elicit network-wide threat responses.

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Wen Li

Transcranial stimulation of alpha oscillations up-regulates the default mode network

Sensing fear: fast and precise threat evaluation in human sensory cortex

Threat Memory in the Sensory Cortex: Insights from Olfaction

Editorial: Frontiers of women in brain imaging and brain stimulation

Sensing fear: Fast-and-precise threat evaluation in human sensory cortex

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