Many disorders are characterized by underlying abnormalities in network connectivity which, though difficult to address with explicit training procedures, can be directly targeted through covert neurofeedback.
Patients with Parkinson's disease can be trained to self-suppress beta bursts in subthalamic nucleus, which was accompanied by quicker reaction times when prompted to move but increased tremor.
Changing brain state using feedback from transcranial magnetic stimulation, by training participants to increase or decrease how excitable their motor pathways are.
Using a sequential neurofeedback-arm reaching task, a new link is established among population neural activity patterns, generation of beta oscillations, and motor behavior changes.
Structural network topology develops during adolescence to facilitate activation of the fronto-parietal executive system with lower theoretical energetic cost.
The momentary levels of local cortical desynchronization and pupil-linked arousal pose dissociable influences not only on the processing of sensory information but also on human perceptual performance.
In the processing of spoken narratives, bottom-up acoustic cues and top-down linguistic knowledge separately contribute to neural construction of linguistic units.
Large-scale electrocorticography and big data analysis of brain-wide neuronal interactions reveal the architecture of network information flow for context processing in primate brain.
Hyperalignment provides a conceptual framework for cortical architecture that captures how shared information is encoded in idiosyncratic cortical topographies that preserve vector geometry for population response and connectivity patterns.