To accurately perceive another person, your neural representation of that person has to match the pattern in the persons' brain when they think about themselves.
A network linking the medial prefrontal cortex and brainstem plays a critical role in the development of compulsive drinking disorder and is a driver for its expression.
Study identified the neural correlates of fear during dreaming and reports similar areas are activated when experiencing fear during wakeful states.
Study identifies distinct neural processes that occur when we make decisions for the benefit of ourselves and of others.
Study finds EEG features may not always be accurate in being able to capture the level of consciousness in patients under anesthesia.
Methylphenidate may boost norepinephrine levels in the prefrontal cortex, which in turn regulates dopaminergic neurons firing in the striatum, when a reward is delivered. The study sheds new light on how medications for ADHD affect the reward system in the brain.
Unique signatures of neural synchrony reflect whether pro-social or anti-social decisions are made. Brain regions, including the cingulate gyrus, amygdala, and medial prefrontal cortex, are highly synchronized when pro-social behavior is exhibited but decreases in the presence of anti-social behavior.
Researchers uncover a key role of medial prefrontal cortex corticotropin-releasing factor interneurons for bidirectionally controlling motivated behavioral styles under stress. The findings could help in the development of new treatments for PTSD.
During a conflict between two groups, oxytocin levels increase, influencing the medial prefrontal cortex. This results in a greater feeling of empathy among the group and a desire to seek revenge on rivals. The findings shed light on how conflict contagion can occur in social groups.
Scanning people's brains when watching videos, researchers found both neural and behavioral responses to the content could predict how long others would watch the same video on the internet.
The lateral hypothalamus is an integral component of social brain networks. It shapes socially motivated behaviors via functional coordination with neocortical regions.
Loneliness alters how the brain represents relationships, a new study reports.
