Fábio Godinho scite author profile

Emotions modulate pain perception, although the mechanisms underlying this phenomenon remain unclear. In this study, we show that intensity reports significantly increased when painful stimuli were concomitant to images showing human pain, whereas pictures with identical emotional values but without somatic content failed to modulate pain. Early somatosensory responses (Ͻ200 ms) remained unmodified by emotions. Conversely, late responses showed a significant enhancement associated with increased pain ratings, localized to the right prefrontal, right temporo-occipital junction, and right temporal pole. In contrast to selective attention, which enhances pain ratings by increasing sensory gain, emotions triggered by seeing other people's pain did not alter processing in SI-SII (primary and second somatosensory areas), but may have biased the transfer to, and the representation of pain in short-term memory buffers (prefrontal), as well as the affective assignment to this representation (temporal pole). Memory encoding and recall, rather than sensory processing, appear to be modulated by empathy with others' physical suffering.

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Evoked potentials to nociceptive stimuli delivered by CO2 or Nd:YAP lasers

Perchet

Godinho

Mazza

et al. 2008

Clinical Neurophysiology

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How the pain of others enhances our pain: Searching the cerebral correlates of ‘compassional hyperalgesia’

Godinho

Faillenot

Perchet

et al. 2011

European Journal of Pain

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Observing other people's pain increases our own reports to painful stimuli, a phenomenon that can be defined as 'compassional hyperalgesia' (CH). This functional magnetic resonance imaging study examined the neural correlates of CH, and whether CH could emerge when exposure to the driving stimulus was subliminal. Subjects received electric somatosensory stimuli while observing images of people undergoing painful or enjoyable somatic sensations, presented during a period allowing or not allowing conscious perception. The intensity attributed to painful stimuli increased significantly when these were delivered close to images showing human pain, but only when such images were consciously perceived. The basic core of the Pain Matrix (SI, SII, insula, mid-anterior cingulate) was activated by painful stimuli, but its activation magnitude did not increase during CH. Compassional hyperalgesia was associated with increased activity in polymodal areas involved in emotional tuning (anterior prefrontal, pregenual cingulated) and areas involved in multisensory integration and short-term memory (dorsolateral prefrontal, temporo-parieto-occipital junction). CH appears as a high-order phenomenon needing conscious appraisal of the eliciting visual stimulus, and supported by polymodal areas distinct from the basic Pain Matrix. This suggests that compassion to pain does not result from a mere 'sensory resonance' in pain networks, but rather from an interaction between the output of a first-line processing in the Pain Matrix, and the activity of a high-order network involving multisensory integration (temporo-parietal), encoding of internal states (mid-prefrontal) and short-time memory encoding (dorsolateral prefrontal). The Pain Matrix cannot be considered as an 'objective' correlate of the pain experience in all situations.

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Fábio Godinho

Emotional Modulation of Pain: Is It the Sensation or What We Recall?

Evoked potentials to nociceptive stimuli delivered by CO2 or Nd:YAP lasers

How the pain of others enhances our pain: Searching the cerebral correlates of ‘compassional hyperalgesia’

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