Linking brain structure and activation in anterior insula cortex to explain the trait empathy for pain

Li, Yun; Zhang, Tingting; Li, Wenjuan; Jin, Zhenlan; Li, Ling

doi:10.1002/hbm.24858

Cited by 33 publications

(24 citation statements)

References 73 publications

(144 reference statements)

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“…In addition, neural regions previously associated both with empathy for pain and with reappraisal (e.g. anterior and posterior regions of the left SMG within the IPL as well as the parietal operculum—empathy for pain: Costantini et al., 2008 ; Li et al., 2019 ; Morawetz et al., 2015 ) were involved when participants employed reappraisal following exposure to painful scenarios. A gPPI analysis revealed increased functional connectivity between the right IFG and regions of the network involved in empathy for pain.…”

Section: Discussionmentioning

confidence: 99%

The neural networks underlying reappraisal of empathy for pain

Naor

Rohr

Schaare

et al. 2020

Social Cognitive and Affective Neuroscience

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Emotion regulation plays a central role in empathy. Only by successfully regulating our own emotions can we reliably use them in order to interpret the content and valence of others’ emotions correctly. In an fMRI-based experiment, we show that regulating one’s emotion via reappraisal modulated biased emotional intensity ratings following an empathy for pain manipulation. Task based analysis revealed increased activity in the right IFG when painful emotions were regulated using reappraisal, whereas empathic feelings that were not regulated resulted in increased activity bilaterally in the precuneus, SMG and MFG, as well as the right parahippocampal gyrus. Functional connectivity analysis indicated that the right IFG plays a role in the regulation of empathy for pain, through its connections with regions in the empathy for pain network. Furthermore, These connections were further modulated as a function of the type of regulation used: In sum, our results suggest that accurate empathic judgment (i.e. empathy that is unbiased) relies on a complex interaction between neural regions involved in emotion regulation and regions associated with empathy for pain. Thus, demonstrating the importance of emotion regulation in the formulation of complex social systems and sheds light on the intricate network implicated in this complex process.

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Section: Discussionmentioning

confidence: 99%

The neural networks underlying reappraisal of empathy for pain

Naor

Rohr

Schaare

et al. 2020

Social Cognitive and Affective Neuroscience

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show abstract

“… 8 A neuroimaging study also showed that the IRI score was correlated with the neural activity in the bilateral anterior insula during state empathy for pain. 9 Therefore, the scale of IRI is a suitable measurement to reveal the trait empathy and the empathy for pain.…”

Section: Introductionmentioning

confidence: 99%

The Effect of Empathy on the Attentional Processing of Painful and Emotional Stimuli

Bi¹,

Xie²,

Zhang³

et al. 2021

PRBM

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Background Empathy is shown to affect the attentional processing of painful stimuli and emotional stimuli. However, whether the attentional effects on emotional stimuli depend on emotional valence and the nature of the relationship between the attentional effects on different stimuli are still unknown. Methods In the present study, 25 high-empathy (HE) participants and 25 low-empathy (LE) participants were recruited to perform dot-probe tasks on painful stimuli and emotional stimuli. Results The results showed that HE individuals had weak attentional disengagement to painful pictures. More importantly, regarding emotional pictures, HE individuals showed attentional avoidance to negative emotion pictures, while LE individuals showed attentional bias to positive emotion pictures. Correlation analysis showed that the attentional bias score and attentional disengagement score were only associated with each other within the same category of stimuli (painful, positive or negative stimuli). Conclusion These results revealed that HE individuals mainly showed attentional avoidance to negative stimuli, while LE individuals mainly showed attentional bias to positive stimuli.

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“…Research has shown that observing others in pain and feeling pain yourself leads to considerable overlap in brain activation, for example in the bilateral anterior insulae (AI) and medial areas of the prefrontal cortex 30 – 32 . This overlap could indicate that we feel with the other person when we observe them in pain which is corroborated by correlations between activation in these areas and trait empathy or behavioural empathy ratings 30 , 33 – 36 . Empathy for pain paradigms investigate responses to other’s in pain and are open to influences of the perceiver 37 and the person in pain 38 , 39 .…”

Section: Introductionmentioning

confidence: 63%

Increased activation in the bilateral anterior insulae in response to others in pain in mothers compared to non-mothers

Plank

Attar

Kunas

et al. 2021

Sci Rep

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Empathy allows us to share emotions and encourages us to help others. It is especially important in the context of parenting where children’s wellbeing is dependent on their parents’ understanding and fulfilment of their needs. To date, little is known about differences in empathy responses of parents and non-parents. Using stimuli depicting adults and children in pain, this study focuses on the interaction of motherhood and neural responses in areas associated with empathy. Mothers showed higher activation to both adults and children in pain in the bilateral anterior insulae, key regions of empathy for pain. Additionally, mothers more strongly activated the inferior frontal, superior temporal and the medial superior frontal gyrus. Differences between adult and child stimuli were only found in occipital areas in both mothers and non-mothers. Our results suggest a stronger neural response to others in pain in mothers than non-mothers regardless of whether the person is a child or an adult. This could indicate a possible influence of motherhood on overall neural responses to others in pain rather than motherhood specifically shaping child-related responses. Alternatively, stronger responses to others in pain could increase the likelihood for women to be in a relationship and subsequently to have a child.

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Linking brain structure and activation in anterior insula cortex to explain the trait empathy for pain

Cited by 33 publications

References 73 publications

The neural networks underlying reappraisal of empathy for pain

The neural networks underlying reappraisal of empathy for pain

The Effect of Empathy on the Attentional Processing of Painful and Emotional Stimuli

Increased activation in the bilateral anterior insulae in response to others in pain in mothers compared to non-mothers

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