Physiological responses to threat and stress stimuli entrain synchronized neural oscillations among cerebral networks. Network architecture and adaptation may play a critical role in achieving optimal physiological responses, while alteration can lead to mental dysfunction. We reconstructed cortical and sub-cortical source time series from high-density electroencephalography, which were then fed into community architecture analysis. Dynamic alterations were evaluated in terms of flexibility, clustering coefficient and global and local efficiency, as parameters of community allegiance. Transcranial magnetic stimulation was applied over the dorsomedial prefrontal cortex during the time window relevant for physiological threat processing an...
Optimal adjustment of brain networks allows the biased processing of information in response to the ...
Hemodynamic research has recently clarified key nodes and links in brain networks implementing inhib...
Fear conditioning is used to investigate the neural bases of threat and anxiety, and to understand t...
Neuropsychiatric illness represents a major health burden in the United States with a paucity of eff...
Social threat is a key component of mental “stress” and a potent generator of negative emotions and ...
The cerebral cortex consists of numerous, densely interconnected, functionally specialized areas tha...
Finding new and effective treatments for mental illness represents one of the largest challenges of ...
Human brain dynamics are organized into a multi-scale network structure that contains multiple tight...
Objective: To evaluate cortical excitability during instructed threat processing. Methods: Single...
Understanding the brain’s dynamics and its role in cognitive functions will open up new avenues for ...
The cerebral cortex presents itself as a distributed dynamical system with the characteristics of a ...
AbstractPerception, cognition, and social interaction depend upon coordinated neural activity. This ...
AbstractIt is currently unclear to what extent cortical structures are required for and engaged duri...
The importance of the large number of thin-diameter and unmyelinated axons that connect different co...
Recent experimental studies point to the notion that the brain is a complex dynamical system whose b...
Optimal adjustment of brain networks allows the biased processing of information in response to the ...
Hemodynamic research has recently clarified key nodes and links in brain networks implementing inhib...
Fear conditioning is used to investigate the neural bases of threat and anxiety, and to understand t...
Neuropsychiatric illness represents a major health burden in the United States with a paucity of eff...
Social threat is a key component of mental “stress” and a potent generator of negative emotions and ...
The cerebral cortex consists of numerous, densely interconnected, functionally specialized areas tha...
Finding new and effective treatments for mental illness represents one of the largest challenges of ...
Human brain dynamics are organized into a multi-scale network structure that contains multiple tight...
Objective: To evaluate cortical excitability during instructed threat processing. Methods: Single...
Understanding the brain’s dynamics and its role in cognitive functions will open up new avenues for ...
The cerebral cortex presents itself as a distributed dynamical system with the characteristics of a ...
AbstractPerception, cognition, and social interaction depend upon coordinated neural activity. This ...
AbstractIt is currently unclear to what extent cortical structures are required for and engaged duri...
The importance of the large number of thin-diameter and unmyelinated axons that connect different co...
Recent experimental studies point to the notion that the brain is a complex dynamical system whose b...
Optimal adjustment of brain networks allows the biased processing of information in response to the ...
Hemodynamic research has recently clarified key nodes and links in brain networks implementing inhib...
Fear conditioning is used to investigate the neural bases of threat and anxiety, and to understand t...