Does the insula contribute to emotion‐related distortion of time? A neuropsychological approach

Mella, Nathalie; Bourgeois, Alexia; Perren, Fabienne; Viaccoz, Aurélien; Kliegel, Matthias; Picard, Fabienne

doi:10.1002/hbm.24460

Cited by 15 publications

(8 citation statements)

References 54 publications

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“…This idea is defended in the theory of the embodiment of time (Droit‐Volet, ; Effron, Niedenthal, Gil, & Droit‐Volet, ; Wittmann, ), with the insula—an interoceptive region (Craig, )—playing a critical role in duration judgments (Wittmann, van Wassenhove, Craig, & Paulus, ). However, there is no consensus in the literature concerning the key role of the insula in the different forms of time judgments (see Mella et al, ), and the direct link between physiological activity and time judgments has not yet been clearly established, although numerous studies have already shown the effects of the increase of arousal on the judgment of physical durations, namely in emotional contexts (Droit‐Volet, ). Nevertheless, we can agree on the fact that the awareness of the self‐duration is related to the awareness of the embodied self, with a critical role of the insula (Craig, ), but these judgments at the consciousness level are not based on the same mechanisms as those involved in the judgment of short physical durations.…”

Section: Conclusion: What Are the Mechanisms Underlying Time–self Linmentioning

confidence: 99%

Awareness of the passage of time and self‐consciousness: What do meditators report?

Droit‐Volet

Dambrun

2019

PsyCh Journal

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What do humans mean when they say that time passes quickly or slowly? In this article, we try to respond to this question on the basis of our studies on the judgment of the passage of time and its links with the judgment of physical durations. The awareness of the passage of time when consciousness is altered by meditation is also discussed. A dissociation is then made among the "self-time perspective," the "self-duration" (internal duration), and the "world-duration" (external duration). A link is also established between the self-time perspective and the "narrative self," on one hand, and the self-duration and the "minimal self," on the other hand, that is confirmed in our qualitative analysis of testimonials of four meditators. The awareness of self-duration is thus related to the awareness of the embodied self. When the sense of self is altered and the consciousness of the body is lower, then the subjective experience of internal time changes. However, the mechanisms allowing the disappearance of the self with the feeling of being outside time during meditation remains to be elucidated.

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Section: Conclusion: What Are the Mechanisms Underlying Time–self Linmentioning

confidence: 99%

Awareness of the passage of time and self‐consciousness: What do meditators report?

Droit‐Volet

Dambrun

2019

PsyCh Journal

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“…Moreover, lesions in the mediodorsal nuclei are associated with a decrease in cerebral blood flow in cortical areas, most notably the dorsolateral prefrontal cortex (39, 54), an essential region in time perception circuits. The insula is also involved in the time perception circuit (43,55). Both the anterior portion and posterior part of the insula have been implicated in time perception tasks, with the posterior part being more involved in the encoding phase of time perception tasks and the anterior part more involved in the reproduction phase where an explicit judgment of duration is made (49,56).…”

Section: Discussionmentioning

confidence: 99%

“…We found time perception deficits to be slightly more common in strokes affecting the right hemisphere (219 vs. 199 in the left hemisphere). Numerous locations were associated with time perception deficits, namely the thalamus ( 38 – 41 ), insula ( 43 ), basal ganglia ( 42 ), cerebellum ( 21 – 25 ) and cortical structures (dorsolateral prefrontal cortex ( 24 , 25 , 27 , 28 , 32 , 36 , 44 , 47 ), parietal cortex ( 32 , 36 , 44 – 47 ), including supramarginal ( 26 , 28 , 33 ) and angular gyri ( 28 ), temporal cortex ( 26 , 32 , 36 , 46 , 47 ). These locations correspond to those commonly reported in time perception studies with functional brain MRI in healthy participants ( 5 , 49 ).…”

Section: Discussionmentioning

confidence: 99%

“…The insula is also involved in the time perception circuit ( 43 , 55 ). Both the anterior portion and posterior part of the insula have been implicated in time perception tasks, with the posterior part being more involved in the encoding phase of time perception tasks and the anterior part more involved in the reproduction phase where an explicit judgment of duration is made ( 49 , 56 ).…”

Section: Discussionmentioning

confidence: 99%

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Time perception changes in stroke patients: A systematic literature review

et al. 2022

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IntroductionTime perception comprises the subjective experience of passing of time and of the duration of an event. Although already described in some neurological and psychiatric conditions, there is a paucity of details regarding this neurocognitive change in stroke patients. We aimed to describe time perception dysfunction in stroke patient.MethodsWe performed a systematic review of the literature in Pubmed, PsycInfo and EMBASE including manuscripts from their inception until December 2020. We collected data regarding the type of time perception that was detected, type of stroke, most common location of lesions, evaluation tests that were used and time of evaluation after stroke onset.ResultsA total of 27 manuscripts were selected, concerning a total of 418 patients (n = 253 male; 60.5%). Most manuscripts (n = 21) evaluated patients with ischaemic lesions (n = 407; 97.4%). The majority referred to evaluations between 2 months and seven years after stroke. Underestimation in temporal evaluation in sub- and supra-second was the most common dysfunction (n = 165; 41.7%). Overestimation of time (n = 116; 27.8%) and impaired time interval comparison (n = 88; 22.2%) were also found. Most patients had right hemisphere lesions (n = 219 patients; 52.4%). Common reported lesion locations included the thalamus, insula, basal ganglia, dorsolateral prefrontal cortex, parietal cortex including supramarginal, angular gyrus and right inferior parietal cortex and cerebellum.ConclusionThere are multiple stroke locations associated with time perception dysfunction, which highlights the complex system involved in time perception. There is still scarce knowledge about specific time perception deficits after stroke. Most studies rely in psychometric analysis without clear clinical and functional translation, namely regarding impact on daily activities.

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“…We found time perception deficits to be slightly more common in strokes affecting the right hemisphere (219 vs. 199 in the left hemisphere). Numerous locations were associated with time perception deficits, namely the thalamus (38)(39)(40)(41), insula (43), basal ganglia (42), cerebellum (21-25) and cortical structures (dorsolateral prefrontal cortex (24,25,27,28,32,36,44,47), parietal cortex (32, 36, 44-47), including supramarginal (26,28,33) and angular gyri (28), temporal cortex (26,32,36,46,47). These locations correspond to those commonly reported in time perception studies with functional brain MRI in healthy participants (5,49).…”

Section: Discussionmentioning

confidence: 99%

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Does the insula contribute to emotion‐related distortion of time? A neuropsychological approach

Cited by 15 publications

References 54 publications

Awareness of the passage of time and self‐consciousness: What do meditators report?

Awareness of the passage of time and self‐consciousness: What do meditators report?

Time perception changes in stroke patients: A systematic literature review

Table_1.docx

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