Recent research has shown that experiencing events that represent a significant threat to social bonds activates a network of brain areas associated with the sensory-discriminative aspects of pain. In the present study, we investigated whether the same brain areas are involved when witnessing social exclusion threats experienced by others. Using a within-subject design, we show that an ecologically valid experience of social exclusion recruits areas coding the somatosensory components of physical pain (posterior insular cortex and secondary somatosensory cortex). Furthermore, we show that this pattern of activation not only holds for directly experienced social pain, but also during empathy for social pain. Finally, we report that subgenual...
Neuroimaging studies report that the experience of observing or imagining the pain of others is mapp...
Although feeling pain and touch has long been considered inherently private, recent neuroimaging and...
The discovery of regions in the human brain (e.g., insula and cingulate cortex) that activate both u...
Recent research has shown that experiencing events that represent a significant threat to social bon...
Humans observe various peoples' social suffering throughout their lives, but it is unknown whet...
To what extent do we share feelings with others? Neuroimaging investigations of the neural mechanism...
Our ability to have an experience of another's pain is characteristic of empathy. Using functional i...
Recent brain imaging studies indicate that empathy for pain relies upon both the affective and/or th...
The perception and evaluation of other’s pain has been largely used in social neuroscience as a para...
Around a quarter of the population report “mirror pain” experiences in which bodily sensations of pa...
Current neuroscientific models of empathy postulate that attending to others’ emotions and feelings ...
A growing body of evidence suggests that empathy for pain is underpinned by neural structures that a...
Current neuroscientific models of empathy postulate that a given motor, perceptual or emotional stat...
Recent brain imaging studies indicate that empathy for pain relies upon both the affective and/or th...
Pain is a salient, aversive sensation which motivates avoidance, but also has a strong social signal...
Neuroimaging studies report that the experience of observing or imagining the pain of others is mapp...
Although feeling pain and touch has long been considered inherently private, recent neuroimaging and...
The discovery of regions in the human brain (e.g., insula and cingulate cortex) that activate both u...
Recent research has shown that experiencing events that represent a significant threat to social bon...
Humans observe various peoples' social suffering throughout their lives, but it is unknown whet...
To what extent do we share feelings with others? Neuroimaging investigations of the neural mechanism...
Our ability to have an experience of another's pain is characteristic of empathy. Using functional i...
Recent brain imaging studies indicate that empathy for pain relies upon both the affective and/or th...
The perception and evaluation of other’s pain has been largely used in social neuroscience as a para...
Around a quarter of the population report “mirror pain” experiences in which bodily sensations of pa...
Current neuroscientific models of empathy postulate that attending to others’ emotions and feelings ...
A growing body of evidence suggests that empathy for pain is underpinned by neural structures that a...
Current neuroscientific models of empathy postulate that a given motor, perceptual or emotional stat...
Recent brain imaging studies indicate that empathy for pain relies upon both the affective and/or th...
Pain is a salient, aversive sensation which motivates avoidance, but also has a strong social signal...
Neuroimaging studies report that the experience of observing or imagining the pain of others is mapp...
Although feeling pain and touch has long been considered inherently private, recent neuroimaging and...
The discovery of regions in the human brain (e.g., insula and cingulate cortex) that activate both u...