Is Empathy for Pain Unique in Its Neural Correlates? A Meta-Analysis of Neuroimaging Studies of Empathy

Timmers, Inge; Park, Anna L; Fischer, Molly; Kronman, Corey A.; Heathcote, Lauren C.; Hernandez, J. Maya; Simons, Laura E.

doi:10.3389/fnbeh.2018.00289

Cited by 116 publications

(176 citation statements)

References 47 publications

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“…As findings by Gu et al (Gu, Liu, et al, 2013) suggested that the left AI might be a key node in a neural network that serves as the anatomical basis for cognition-emotion integration. Two meta-analyses of empathy studies provide indirect supporting evidence that the left AI might be active both in the affective-perceptual form of empathy and the cognitive-evaluative form of empathy (Fan et al, 2011;Timmers et al, 2018). The present findings do not confirm that the left AI only plays a role in cognitive empathy.…”

Section: Discussioncontrasting

confidence: 89%

“…The present investigation revealed an inverse relationship between GMV in the AI and trait empathy; that is, decreased brain volume in the bilateral AI was associated with increased trait empathy scores. Additionally, in a whole-brain analysis, the peculiar inverse relationship not only show in the AI, but also in other brain regions (e.g., MCC, the precuneus, IFG, the amygdala, MFG, SMA, AG, SMG, and IPL) which is consistent with recent metaanalyses highlighting these regions as core networks involved in empathy (Fan et al, 2011;Timmers et al, 2018).…”

Section: Discussionsupporting

confidence: 89%

“…Additionally, in a whole-brain analysis, the peculiar inverse relationship not only show in the AI, but also in other brain regions (e.g., MCC, the precuneus, IFG, the amygdala, MFG, SMA, AG, SMG, and IPL) which is consistent with recent metaanalyses highlighting these regions as core networks involved in empathy (Fan et al, 2011;Timmers et al, 2018). The present investigation revealed an inverse relationship between GMV in the AI and trait empathy; that is, decreased brain volume in the bilateral AI was associated with increased trait empathy scores.…”

Section: Discussionsupporting

confidence: 87%

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

Zhang

et al. 2019

Human Brain Mapping

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The ability to perceive, understand, and react to the feelings of others' pain is referred to as empathy for pain which is composed of two components, affectiveperceptual empathy and cognitive-evaluative empathy. Recent reviews on the neural mechanisms of empathetic pain showed the anterior insula (AI) cortex as a core circuit for empathy. However, little is known about the modulation of brain anatomy and empathic responses by trait measures of empathy (trait empathy). Thus, we investigated whether individual variation in the personality trait of empathy is associated with individual variation in the structure of specific brain regions using voxelbased morphometry (VBM). We further investigated the relationship between the trait empathy and the activity of the same regions using state measures of empathy for pain in a trial-by-trial fashion in the given situation. VBM analysis indicated a small but significant negative relationship between trait empathy and gray matter volume in the bilateral AI. Functional MRI study further demonstrated that experimentally induced activity of the bilateral AI during state empathy for pain was also correlated with trait empathy. An asymmetry exists between the right and left AI between the affective and cognitive empathy. The right AI was found to be involved in the affective-perceptual form of empathy and the left AI was active in cognitiveevaluative forms of empathy. The interindividual differences in trait empathy may be reflected both in the state empathy and more stable brain structure difference. K E Y W O R D Santerior insula cortex, empathy for pain, gray matter volume, trait empathy

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Section: Discussioncontrasting

confidence: 89%

Section: Discussionsupporting

confidence: 89%

Section: Discussionsupporting

confidence: 87%

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

Zhang

et al. 2019

Human Brain Mapping

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“…The components encompassed a network primarily including the inferior and lateral parietal regions, the postcentral and supramarginal gyrus, AI and adjacent IFG as well as the dmPFC and adjacent MCC regions. Previous metaanalytic results from studies employing subtraction contrasts revealed a highly overlapping network engaged during empathic responses, including pain empathy (Fan et al, 2011;Lamm et al, 2011;Timmers et al, 2018).…”

Section: Discussionmentioning

confidence: 99%

“…The anterior insula (AI) and the anterior cingulate cortex (ACC) -which represent core nodes of the pain matrix (Price, 2000;Wager et al, 2013) and larger salience network (Uddin, 2015)respond both during experiencing first-hand pain as well as observing pain in others (Bernhardt & Singer, 2012;Jackson, Rainville, & Decety, 2006;Singer et al, 2004). Meta-analyses of fMRI studies have furthermore confirmed robust engagement of the AI and cingulate regions, specifically dorsal ACC and anterior portions of the midcingulate cortex (MCC) during empathic processes, including pain empathy (Fan, Duncan, de Greck, & Northoff, 2011;Lamm, Decety, & Singer, 2011;Timmers et al, 2018). Empathy is a multifaceted socialcognitive process which employs several emotional and cognitive systems (Shamay-Tsoory, 2011), such as the mirror-neuron system underlying simulation and affect sharing which comprises the inferior frontal gyrus (IFG) and inferior parietal lobule (IPL) (Iacoboni & Dapretto, 2006), mentalizing and self-other discrimination which additionally engage the temporoparietal junction (TPJ), the medial prefrontal cortex (mPFC), the posterior cingulate cortex (PCC) and the medial temporal lobe (MTL) (Kurczek et al, 2015;Saxe & Kanwisher, 2003;Schurz, Radua, Aichhorn, Richlan, & Perner, 2014;Uddin, Iacoboni, Lange, & Keenan, 2007).…”

Section: Introductionmentioning

confidence: 95%

Inter-subject phase synchronization differentiates neural networks underlying physical pain empathy

Lei

Bolt

Nomi

et al. 2019

Preprint

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Recent approaches for understanding the neural basis of pain empathy emphasize the dynamic construction of neural networks underlying this multifaceted social cognitive process. Inter-subject phase synchronization (ISPS)is an approach for exploratory analysis of task-based fMRI data that reveals brain networks dynamically synchronized to task-features across subjects. We applied ISPS to task-fMRI data assessing vicarious pain empathy in healthy subjects (n=238). The task employed physical (limb) and affective (faces) painful and corresponding non-painful visual stimuli. ISPS revealed two distinct networks synchronized during physical pain observation, one encompassing anterior insula and midcingulate regions strongly engaged in (vicarious) pain, and another encompassing parietal and inferior frontal regions associated with social cognitive processes which may further modulate and support the pain empathic response. No robust network synchronization was observed while processing facial expressions of pain, possibly reflecting high inter-individual variation in response to socially transmitted pain experience. ISPS also revealed networks related to task onset or general processing of physical (limb) or affective (face) stimuli which encompassed networks engaged in object manipulation or face processing, respectively. Together, the ISPS approach permits segregation of networks engaged in different psychological processes, providing additional insight into shared neural mechanisms of empathy for physical pain across individuals.

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Probing the role of the right inferior frontal gyrus during Pain‐Related empathy processing: Evidence from fMRI and TMS

Zhang

et al. 2020

Human Brain Mapping

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Recent studies have suggested that the right inferior frontal gyrus (rIFG) may be involved in pain‐related empathy. To verify the role of the rIFG, we performed a functional magnetic resonance imaging (fMRI) experiment to replicate previous research and further designed a noninvasive repetitive transcranial magnetic stimulation (rTMS) experiment to probe the causal role of the rIFG in pain‐related empathy processing. We assigned 74 volunteers (37 females) to three groups. Group 1 (n = 26) performed a task in which participants were required to perceive pain in others (task of pain: TP) and we used fMRI to observe the activity of the rIFG during pain‐related empathy processing. Then, we applied online rTMS to the rIFG and the vertex site (as reference site) to observe the performance of Group 2 (n = 24; performing TP) and Group 3 (n = 24; performing a control task of identifying body parts; task of body: TB). fMRI experiment demonstrated stronger activation in the rIFG than in the vertex during the perception of pain in others (p < .0001, Bonferroni‐corrected). rTMS experiment indicated that when the rIFG was temporarily disrupted, participants perceived pain in others significantly more slowly (p < .0001, Bonferroni‐corrected) than when the vertex was disrupted. Our results provide evidence that the rIFG is involved in pain‐related empathy processing, which yields insights into how the brain perceives pain in others.

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Is Empathy for Pain Unique in Its Neural Correlates? A Meta-Analysis of Neuroimaging Studies of Empathy

Cited by 116 publications

References 47 publications

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

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

Inter-subject phase synchronization differentiates neural networks underlying physical pain empathy

Probing the role of the right inferior frontal gyrus during Pain‐Related empathy processing: Evidence from fMRI and TMS

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