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Personne :
Jackson, Philip L.

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Jackson

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Philip L.

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Université Laval. École de psychologie

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ncf11893402

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Voici les éléments 1 - 9 sur 9
  • PublicationRestreint
    To what extent do we share the pain of others? Insight from the neural bases of pain empathy
    (Elsevier Science, 2006-11-01) Jackson, Philip L.; Rainville, Pierre; Decety, Jean
    In the representationalist framework generally adopted in cognitive neuroscience, pain is conceived as a subjective experience triggered by the activation of a mental representation of actual or potential tissue damage (nociception). This representation may involve somatic sensory features, as well as affective-motivational reactions associated with the promotion of protective or recuperative visceromotor and behavioral responses. Mental representation of nociception may provide the primary referent from which a rich associative network can be established to evoke the notion of pain in the absence of a nociceptive stimulus. Here, we adopt the notion of a mental representation of pain as a means to relate the experience of pain in oneself to the perception of pain in others. We review the functional neuroimaging studies supporting the hypothesis that the perception of pain in others relies at least partly on the activation of a mental representation of pain in the Self, and thus on common neural systems. However, we also demonstrate that there are systematic differences in activation sites within painrelated areas that must be considered for a better understanding of the mechanisms underlying pain empathy
  • PublicationRestreint
    Empathy examined through the neural mechanisms involved in imagining how I feel versus how you feel pain
    (Pergamon Press, 2005-09-06) Jackson, Philip L.; Brunet-Gouet, Eric; Meltzoff, Andrew N.; Decety, Jean
    Perspective-taking is a stepping stone to human empathy. When empathizing with another individual, one can imagine how the other perceives the situation and feels as a result. To what extent does imagining the other differs from imagining oneself in similar painful situations? In this functional magnetic resonance imaging experiment, participants were shown pictures of people with their hands or feet in painful or non-painful situations and instructed to imagine and rate the level of pain perceived from different perspectives. Both the Self's and the Other's perspectives were associated with activation in the neural network involved in pain processing, including the parietal operculum, anterior cingulate cortex (ACC; BA32) and anterior insula. However, the Self-perspective yielded higher pain ratings and involved the pain matrix more extensively in the secondary somatosensory cortex, the ACC (BA 24a'/24b'), and the insula proper. Adopting the perspective of the Other was associated with specific increase in the posterior cingulate/precuneus and the right temporo-parietal junction. These results show the similarities between Self- and Other-pain representation, but most interestingly they also highlight some distinctiveness between these two representations, which is a crucial aspect of human empathy. It may be what allows us to distinguish empathic responses to others versus our own personal distress. These findings are consistent with the view that empathy does not involve a complete Self-Other merging.
  • PublicationAccès libre
    Neural circuits involved in imitation and perspective-taking
    (Elsevier, 2006-01-10) Jackson, Philip L.; Meltzoff, Andrew N.; Decety, Jean
    Is it important to adopt the perspective of the model when learning a new skill? Is the “mirror system” equally involved when the teacher is facing or side-by-side with students? In this functional MRI study, we measured the cerebral hemodynamic changes in participants who watched video-clips depicting simple hand or foot actions. The participants either watched passively or imitated these actions. Half the video-clips depicted actions filmed from the perspective of the participant (1st-person perspective) and half from a frontal view as if watching someone else (3rd-person perspective). Behavioral results showed that latency to imitate was significantly shorter for the 1st-person perspective than the 3rd-person perspective. Functional imaging results demonstrate that the observation of intransitive actions engaged primary visual and extrastriate visual areas, but not the premotor cortex. Imitation vs. observation of actions yielded enhanced signal in the contralateral somatosensory and motor cortices, cerebellum, left inferior parietal lobule and superior parietal cortex, and left ventral premotor cortex. Activity in the lateral occipital cortex around the extrastriate body area was significantly enhanced during imitation, as compared to observation of actions confirming that this region involvement reaches beyond the perception of body parts. Moreover, comparisons of the two visual perspectives showed more activity in the left sensory–motor cortex for 1st-person, even during observation alone, and in the lingual gyrus for 3rd-person perspective. These findings suggest that the 1st-person perspective is more tightly coupled to the sensory-motor system than the 3rd-person perspective, which requires additional visuospatial transformation.
  • PublicationRestreint
    A social-neuroscience perspective on empathy
    (Cambridge University Press, 2006-04-01) Decety, Jean; Jackson, Philip L.
    In recent years, abundant evidence from behavioral and cognitive studies and functional-imaging experiments has indicated that individuals come to understand the emotional and affective states expressed by others with the help of the neural architecture that produces such states in themselves. Such a mechanism gives rise to shared representations, which constitutes one important aspect of empathy, although not the sole one. We suggest that other components, including people's ability to monitor and regulate cognitive and emotional processes to prevent confusion between self and other, are equally necessary parts of a functional model of empathy. We discuss data from recent functional-imaging studies in support of such a model and highlight the role of specific brain regions, notably the insula, the anterior cingulate cortex, and the right temporo-parietal region. Because this model assumes that empathy relies on dissociable information-processing mechanisms, it predicts a variety of structural or functional dysfunctions, depending on which mechanism is disrupted.
  • PublicationRestreint
    Motor cognition : a new paradigm to study self–other interactions
    (Elsevier Ltd., 2004-12-31) Jackson, Philip L.; Decety, Jean
    Accumulative empirical evidence has been reviewed in support of the notion that the production and perception of action as well as the interpretation of others’ actions are functionally connected, and indeed, rely on common distributed neural systems in the premotor and parietal cortices. We suggest that these neural systems sustain shared representations between self and other that are crucial in social interactions. The inferior parietal cortex plays a special role in the sense of agency, which is a fundamental aspect to navigate within this neural network. The role of other brain areas that implement and regulate these shared representations remains to be specified.
  • PublicationRestreint
    The neural bases of cooperation and competition : an fMRI investigation
    (Academic Press, 2004-09-08) Decety, Jean; Jackson, Philip L.; Sommerville, Jessica A.; Chaminade, Thierry; Meltzoff, Andrew N.
    Cooperation and competition are two basic modes of social cognition that necessitate monitoring of both one's own and others' actions, as well as adopting a specific mental set. In this fMRI, study individuals played a specially designed computer game, according to a set of predefined rules, either in cooperation with or in competition against another person. The hemodynamic response during these conditions was contrasted to that of the same subjects playing the game independently. Both cooperation and competition stances resulted in activation of a common frontoparietal network subserving executive functions, as well as the anterior insula, involved in autonomic arousal. Moreover, distinct regions were found to be selectively associated with cooperation and competition, notably the orbitofrontal cortex in the former and the inferior parietal and medial prefrontal cortices in the latter. This pattern reflects the different mental frameworks implicated in being cooperative versus competitive with another person. In accordance with evidence from evolutionary psychology as well as from developmental psychology, we argue that cooperation is a socially rewarding process and is associated with specific left medial orbitofrontal cortex involvement.
  • PublicationRestreint
    How do we perceive the pain of others? : a window into the neural processes involved in empathy
    (Academic Press, 2004-11-14) Jackson, Philip L.; Meltzoff, Andrew N.; Decety, Jean
    To what extent do we share feelings with others? Neuroimaging investigations of the neural mechanisms involved in the perception of pain in others may cast light on one basic component of human empathy, the interpersonal sharing of affect. In this fMRI study, participants were shown a series of still photographs of hands and feet in situations that are likely to cause pain, and a matched set of control photographs without any painful events. They were asked to assess on-line the level of pain experienced by the person in the photographs. The results demonstrated that perceiving and assessing painful situations in others was associated with significant bilateral changes in activity in several regions notably, the anterior cingulate, the anterior insula, the cerebellum, and to a lesser extent the thalamus. These regions are known to play a significant role in pain processing. Finally, the activity in the anterior cingulate was strongly correlated with the participants' ratings of the others' pain, suggesting that the activity of this brain region is modulated according to subjects' reactivity to the pain of others. Our findings suggest that there is a partial cerebral commonality between perceiving pain in another individual and experiencing it oneself. This study adds to our understanding of the neurological mechanisms implicated in intersubjectivity and human empathy.
  • PublicationRestreint
    The functional architecture of human empathy
    (Sage, 2004-06-01) Decety, Jean; Jackson, Philip L.
    Empathy accounts for the naturally occurring subjective experience of similarity between the feelings expressed by self and others without loosing sight of whose feelings belong to whom. Empathy involves not only the affective experience of the other person’s actual or inferred emotional state but also some minimal recognition and understanding of another’s emotional state. In light of multiple levels of analysis ranging from developmental psychology, social psychology, cognitive neuroscience, and clinical neuropsychology, this article proposes a model of empathy that involves parallel and distributed processing in a number of dissociable computational mechanisms. Shared neural representations, self-awareness, mental flexibility, and emotion regulation constitute the basic macrocomponents of empathy, which are underpinned by specific neural systems. This functional model may be used to make specific predictions about the various empathy deficits that can be encountered in different forms of social and neurological disorders.
  • PublicationRestreint
    The role of gender in the interaction between self-pain and the perception of pain in others
    (Elsevier, 2012-07-01) Jackson, Philip L.; Budell, Lesley; Coll, Michel-Pierre; Rainville, Pierre; Decety, Jean
    While self-pain motivates protective behaviors and self-oriented feelings, the perception of others' pain often motivates concern and prosocial behaviors toward the person suffering. The conflicting consequences of these 2 states raise the question of how pain is perceived in others when one is actually in pain. Two conflicting hypotheses could predict the interaction between these 2 signals: the threat value of pain hypothesis and the shared-representation model of pain empathy. Here, we asked 33 healthy volunteers exposed to acute experimental pain to judge the intensity of the pain felt by models expressing different levels of pain in video clips. Results showed that compared to a control warm stimulus, a stimulus causing self-pain increased the perception of others' pain for clips depicting male pain expressions but decreased the perceived intensity of female high pain expressions in both male and female participants. These results show that one's own pain state influences the perception of pain in others and that the gender of the person observed influences this interaction. Perspective : By documenting the effects of self-pain on pain perception in others, this study provides a better understanding of the shared mechanisms between self-pain and others' pain processing. It could ultimately provide clues as to how the health status of health care professionals could affect their ability to assess their patients' pain.