European journal of pain : EJP
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Embodied models of social cognition argue that others' affective states are processed by re-enacting a sensory-specific representation of the same state in the observer. However, neuroimaging studies suggest that a reliable part of the representation shared between self and others is supramodal and relates to dimensions such as Unpleasantness or arousal, common to qualitatively different experiences. Here we investigated whether representations of first-hand pain and disgust influenced the subsequent evaluation of facial expressions in Modality-specific fashion, or in terms of Unpleasantness or arousal. ⋯ These results extend previous findings about common representational coding between the experience of first-hand and others' pain. In particular, they highlight that reliable part of the information shared is supramodal in nature and relates to a broad dimension of Unpleasantness common also to painless aversive states such as disgust.
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The relationships between worry, happiness and pain catastrophizing in the experience of acute pain.
The current study aimed to (a) evaluate the effects of an experimental manipulation of worry and happiness on pain perception and measures of worry about pain and pain catastrophizing and (b) determine if changes in situation-specific worry about pain and pain catastrophizing would be related to changes in acute pain. ⋯ The current study shows that manipulation-induced changes in pain-related worry, pain catastrophizing, and affect have direct effects on the experience of acute pain. More broadly, the overlap of these three variables provides with anxiety and mood disorders offers the promise of new vistas for research and treatment of pain conditions by assessing and targeting the cognitions and behaviors that are common to worry and catastrophizing.
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Ocular surface diseases are among the most frequent ocular pathologies. Ocular pain following corneal injury is frequently observed in clinic. Corneal sensory innervation is supplied by ciliary nerves derived from ophthalmic division of the trigeminal ganglion. ⋯ This study highlights the parallel increase in ciliary nerve activity and corneal sensitivity after corneal injury in mice. The strategy of combining ex vivo electrophysiological recordings of the ciliary nerve in mice and corneal sensitivity measurements therefore helps to uncover the functional aspects of corneal pain.