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2. [Analgesic placebo effect: contribution of the neurosciences]

Author

Chantal Berna, Cojan Y, Vuilleumier P, and Desmeules J

Subjects
Naloxone, Dopamine, Narcotic Antagonists, Neurosciences, Pain, Prefrontal Cortex, Osteoarthritis, Knee, Placebo Effect, Placebos, Treatment Outcome, Chronic Disease, Humans, Female, Endorphins, Analgesia, Aged
Abstract

Over the past twenty years, neuroscience has changed our understanding of placebo analgesia. Often perceived by researchers as a response bias adding noise to the assessment of efficacy, in the patients' view, it is associated with charlatanism. The origin of the word, qualifying a patient's response to "please" the doctor, did not help its rightful appreciation. However, today the placebo analgesia is considered as a psychobiological phenomenon. Thanks to pharmacological manipulations and the development of functional brain imaging, the neural circuitry involved in this effect as well as the role of endorphins and dopamine have been identified. This article describes our current knowledge about this fascinating phenomenon: a psychological modulation can lead to a biological effect.

Published
2011

6. Apports de l’imagerie fonctionnelle MEG et IRMf et de la neurophysiologie dans la compréhension de la dystonie

Author

Vidailhet, M., primary, Lehéricy, S., additional, Meunier, S., additional, Garnero, L., additional, Bourdain, F., additional, Bleton, J.-P, additional, Delmaire, C., additional, Simonetta-Moreau, M., additional, Lourenço, G., additional, Cojan, Y., additional, Trocello, J.-M., additional, Marsault, C., additional, and Renault, B., additional

Published
2004
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8. Preserved Metacognition for Undetected Visuomotor Deviations.

Author

Pereira M, Skiba R, Cojan Y, Vuilleumier P, and Bègue I

Subjects
Humans, Male, Female, Psychomotor Performance, Retrospective Studies, Movement, Magnetic Resonance Imaging, Metacognition
Abstract

Humans can successfully correct deviations of movements without conscious detection of such deviations, suggesting limited awareness of movement details. We ask whether such limited awareness impairs confidence (metacognition). We recorded functional magnetic resonance imaging data while 31 human female and male participants detected cursor deviations during a visuomotor reaching task and rated their confidence retrospectively. We show that participants monitor a summary statistic of the unfolding visual feedback (the peak cursor error) to detect visuomotor deviations and adjust their confidence ratings, even when they report being unaware of a deviation. Crucially, confidence ratings were as metacognitively efficient for aware and unaware deviations. At the neural level, activity in the ventral striatum tracks high confidence, whereas a broad network encodes cursor error but not confidence. These findings challenge the notion of limited conscious action monitoring and uncover how humans monitor their movements as they unfold, even when unaware of ongoing deviations. SIGNIFICANCE STATEMENT We are unaware of the small corrections we apply to our movements as long as our goals are achieved. Here, although we replicate the finding that participants deny perceiving small deviations they correct, we show that their confidence reliably reflects the presence or absence of a deviation. This observation shows they can metacognitively monitor the presence of a deviation, even when they deny perceiving it. We also describe the hemodynamic correlates of confidence ratings. Our study questions the extent to which humans are unaware of the details of their movements; describes a plausible mechanism for metacognition in a visuomotor task, along with its neural correlates; and has important implications for the construction of the sense of self., Competing Interests: The authors declare no competing financial interests., (Copyright © 2023 the authors.)

Published
2023
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9. Brain Substrates for Distinct Spatial Processing Components Contributing to Hemineglect in Humans.

Author

Cojan Y, Saj A, and Vuilleumier P

Abstract

Several cortical and sub-cortical regions in the right hemisphere, particularly in parietal and frontal lobe, but also in temporal lobe and thalamus, are part of neural networks critically implicated in spatial and attentional functions. Damage to different sites within these networks can cause hemispatial neglect. The aim of this study was to identify the neural substrates of different spatial processing components that are known to contribute to neglect symptoms. First, three different spatial tasks (visual search, bisection, and visual memory) were tested in 27 patients with focal right brain-damage. Voxel-based lesion-symptom mapping was used to determine the relationships between specific sites of damage and severity of deficits in these three spatial tasks. Secondly, fMRI was used in 26 healthy controls who performed the same tasks. In the healthy group, fMRI results showed a differential activation of regions within the parietal and frontal lobes during bisection and visual search, respectively. In the patients, we confirmed a critical role of right lateral parietal cortex in bisection, but lesions in frontal and temporal lobe were more critical for visual search. These data support the existence of distinct components in spatial attentional processes that might be damaged to different degrees in neglect patients.

Published
2021
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10. Neural functional correlates of the impact of socio-emotional stimuli on performances on a flanker task in children aged 9-11 years.

Author

Réveillon M, Lazeyras F, Van Calster L, Cojan Y, Sander D, Hüppi PS, and Barisnikov K

Subjects
Anger, Child, Dissent and Disputes, Female, Happiness, Humans, Magnetic Resonance Imaging, Male, Amygdala cytology, Amygdala physiology, Emotions, Facial Expression
Abstract

Immature cognition is susceptible to interference from competing information, and particularly in affectively charged situations. Several studies have reported activation in the anterior cingulate cortex, prefrontal cortex and amygdala associated with emotional conflict processing in adults but literature is lacking regarding children. Moreover, studies in children and adolescents still disagree regarding the functional activation of amygdala related to facial stimuli. In the purpose of investigating both the effect of socio-emotional stimuli and its interaction with interference control, we designed a flanker task associated with an event-related fMRI paradigm in 30 healthy children ages 9-11. In addition to happy, angry and neutral faces, we presented scrambled stimuli to examine a potential effect of faces. Regarding both brain and behavior results, no effect of emotional valence was observed. However, both results evidenced an emotional effect of faces compared with scrambled stimuli. This was expressed by faster RTs associated with increased amygdala activity and activation of the ventral ACC, in congruent trials only. When scrambled were inversely compared to faces, increased activity was observed within the lateral prefrontal cortex. Regarding the amygdala, the results suggest that in late school age children, activity in the amygdala seemed to underlie the socio-emotional effect induced by faces but not the emotional conflict. Studying brain regions involved in emotion regulation is important to further understand neurodevelopmental disorders and psychopathologies, particularly in late childhood and adolescence., (Copyright © 2018 Elsevier Ltd. All rights reserved.)

Published
2020
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11. Prism adaptation effect on neural activity and spatial neglect depend on brain lesion site.

Author

Saj A, Cojan Y, Assal F, and Vuilleumier P

Subjects
Adult, Brain physiopathology, Female, Humans, Image Processing, Computer-Assisted methods, Male, Stroke pathology, Stroke physiopathology, Adaptation, Physiological physiology, Brain pathology, Functional Laterality physiology, Space Perception physiology
Abstract

Prism adaptation (PA) is one of the few rehabilitation techniques for spatial neglect that directly targets physiological mechanisms underlying space representation, but its efficacy and neural mechanisms remain unresolved. Using PA and fMRI in patients with spatial neglect after an acute right-hemispheric stroke, we previously observed post-PA increases in activity in bilateral parietal, frontal, and occipital cortex during specific visuo-spatial tasks (bisection and visual search). However, given a key role of parietal areas for PA in healthy individuals, we hypothesized that such activation might differ according to the site of brain damage. We studied a group of 10 patients with focal right hemisphere stroke and spatial neglect at baseline and after PA, who were divided in two groups (5 patients with frontal and 5 patients with parietal strokes). We compared their behavioural performance and brain activation patterns during fMRI. At the behavioural level, frontal and parietal patients showed similar neglect signs on visuo-spatial tasks before PA, but frontal patients showed larger benefit from PA. Differences were also observed in cortical activity, with enhanced recruitment of right parietal areas in frontal patients and less consistent patterns in parietal patients. Furthermore, fMRI analysis during PA itself (divided in 5 successive periods) showed differential activations between group in anatomically preserved pathways, including occipital areas and cerebellum, that preceded changes in parietal areas and were specific to frontal patients. These data accord with the hypothesis that intact cerebello-parietal connections may underpin improvement of spatial neglect after PA. Altogether, these results provide important insights on brain networks involved in spatial cognition and may allow an optimal selection of patients benefiting from PA after right hemispheric stroke., (Copyright © 2019 Elsevier Ltd. All rights reserved.)

Published
2019
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12. Adding methylphenidate to prism-adaptation improves outcome in neglect patients. A randomized clinical trial.

Author

Luauté J, Villeneuve L, Roux A, Nash S, Bar JY, Chabanat E, Cotton F, Ciancia S, Sancho PO, Hovantruc P, Quelard F, Sarraf T, Cojan Y, Hadj-Bouziane F, Farné A, Janoly-Dumenil A, Boisson D, Jacquin-Courtois S, Rode G, and Rossetti Y

Subjects
Activities of Daily Living, Double-Blind Method, Humans, Perceptual Disorders physiopathology, Space Perception drug effects, Stroke drug therapy, Stroke Rehabilitation methods, Adaptation, Physiological drug effects, Methylphenidate pharmacology, Perceptual Disorders drug therapy, Recovery of Function drug effects
Abstract

Spatial neglect is one of the main predictors of poor functional recovery after stroke. Many therapeutic interventions have been developed to alleviate this condition, but to date the evidence of their effectiveness is still scarce., Objective: The purpose of this study was to test whether combining prism adaptation (PA) and methylphenidate (MP) could enhance the recovery of neglect patients at a functional level., Methods: RITAPRISM is a multicentre, randomized, double-blind, placebo-controlled study comparing PA plus placebo (control) versus PA plus MP. 24 patients were prospectively enrolled (10 in the placebo group and 14 in the MP group)., Results: The main result is a long-term functional improvement (on the functional independence measure (FIM) and on Bergego's scale) induced by MP combined with PA. No serious adverse event occurred., Conclusions: The long-term benefit on activities of daily living (ADL) obtained in this randomized controlled trial set this intervention apart from previous attempts and supports with a high level of evidence the value of combining PA and MP in order to improve the autonomy of neglect patients. Further studies will be needed to clarify the mechanism of this improvement. Although not specifically assessed at this stage, a part of the improvement in ADL might be related to the collateral effect of MP on mood, executive functions or fatigue, and/or the combined effect of PA and MP on motor intentional bias of neglect patients., Classification of Evidence: This study provides Class I evidence that adding MP to PA improves the functional outcome of neglect patients., Who Trial Registration Id: EUCTR2008-000325-20-FR., (Copyright © 2018 Elsevier Ltd. All rights reserved.)

Published
2018
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13. Metacognition of visuomotor decisions in conversion disorder.

Author

Bègue I, Blakemore R, Klug J, Cojan Y, Galli S, Berney A, Aybek S, and Vuilleumier P

Subjects
Adult, Analysis of Variance, Brain Mapping, Conversion Disorder diagnostic imaging, Female, Humans, Image Processing, Computer-Assisted, Magnetic Resonance Imaging, Male, Oxygen blood, Prefrontal Cortex diagnostic imaging, Psychomotor Performance physiology, Young Adult, Conversion Disorder physiopathology, Judgment physiology, Metacognition physiology, Movement physiology, Prefrontal Cortex physiopathology
Abstract

Motor conversion disorder (CD) entails genuine disturbances in the subjective experience of patients who maintain they are unable to perform a motor function, despite lack of apparent neurological damage. Abilities by which individuals assess their own capacities during performance in a task are called metacognitive, and distinctive impairment of such abilities is observed in several disorders of self-awareness such as blindsight and anosognosia. In CD, previous research has focused on the recruitment of motor and emotional brain systems, generally linking symptoms to altered limbic-motor interactions; however, metacognitive function has not been studied to our knowledge. Here we tested ten CD patients and ten age-gender matched controls during a visually-guided motor paradigm, previously employed in healthy controls (HC), allowing us to probe for motor awareness and metacognition. Participants had to draw straight trajectories towards a visual target while, unbeknownst to them, deviations were occasionally introduced in the reaching trajectory seen on the screen. Participants then reported both awareness of deviations and confidence in their response. Activity in premotor and cingulate cortex distinguished between conscious and unconscious movement corrections in controls better than patients. Critically, whereas controls engaged the left superior precuneus and middle temporal region during confidence judgments, CD patients recruited bilateral parahippocampal and amygdalo-hippocampal regions instead. These results reveal that distinct brain regions subserve metacognitive monitoring for HC and CD, pointing to different mechanisms and sources of information used to monitor and form confidence judgments of motor performance. While brain systems involved in sensory-motor integration and vision are more engaged in controls, CD patients may preferentially rely on memory and contextual associative processing, possibly accounting for how affect and memories can imbue current motor experience in these patients., (Copyright © 2018 Elsevier Ltd. All rights reserved.)

Published
2018
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14. Alterations in neural systems mediating cognitive flexibility and inhibition in mood disorders.

Author

Piguet C, Cojan Y, Sterpenich V, Desseilles M, Bertschy G, and Vuilleumier P

Subjects
Adult, Cognition physiology, Cognition Disorders diagnosis, Cognition Disorders psychology, Female, Humans, Magnetic Resonance Imaging methods, Male, Middle Aged, Mood Disorders diagnosis, Mood Disorders psychology, Photic Stimulation methods, Psychomotor Performance physiology, Random Allocation, Reaction Time physiology, Cognition Disorders physiopathology, Gyrus Cinguli physiopathology, Inhibition, Psychological, Mood Disorders physiopathology, Nerve Net physiopathology
Abstract

Impairment in mental flexibility may be a key component contributing to cardinal cognitive symptoms among mood disorders patients, particularly thought control disorders. Impaired ability to switch from one thought to another might reflect difficulties in either generating new mental states, inhibiting previous states, or both. However, the neural underpinnings of impaired cognitive flexibility in mood disorders remain largely unresolved. We compared a group of mood disorders patients (n = 29) and a group of matched healthy subjects (n = 32) on a novel task-switching paradigm involving happy and sad faces, that allowed us to separate generation of a new mental set (Switch Cost) and inhibition of the previous set during switching (Inhibition Cost), using fMRI. Behavioral data showed a larger Switch Cost in patients relative to controls, but the average Inhibition Cost did not differ between groups. At the neural level, a main effect of group was found with stronger activation of the subgenual cingulate cortex in patients. The larger Switch Cost in patients was reflected by a stronger recruitment of brain regions involved in attention and executive control, including the left intraparietal sulcus, precuneus, left inferior fontal gyrus, and right anterior cingulate. Critically, activity in the subgenual cingulate cortex was not downregulated by inhibition in patients relative to controls. In conclusion, mood disorder patients have exaggerated Switch Cost relative to controls, and this deficit in cognitive flexibility is associated with increased activation of the fronto-parietal attention networks, combined with impaired modulation of the subgenual cingulate cortex when inhibition of previous mental states is needed., (© 2016 Wiley Periodicals, Inc.)

Published
2016
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15. Temporal dynamics of musical emotions examined through intersubject synchrony of brain activity.

Author

Trost W, Frühholz S, Cochrane T, Cojan Y, and Vuilleumier P

Subjects
Adult, Amygdala physiology, Arousal physiology, Brain Mapping, Caudate Nucleus physiology, Cerebral Cortex physiology, Emotions physiology, Female, Humans, Magnetic Resonance Imaging, Male, Nucleus Accumbens physiology, Young Adult, Brain physiology, Music psychology
Abstract

To study emotional reactions to music, it is important to consider the temporal dynamics of both affective responses and underlying brain activity. Here, we investigated emotions induced by music using functional magnetic resonance imaging (fMRI) with a data-driven approach based on intersubject correlations (ISC). This method allowed us to identify moments in the music that produced similar brain activity (i.e. synchrony) among listeners under relatively natural listening conditions. Continuous ratings of subjective pleasantness and arousal elicited by the music were also obtained for the music outside of the scanner. Our results reveal synchronous activations in left amygdala, left insula and right caudate nucleus that were associated with higher arousal, whereas positive valence ratings correlated with decreases in amygdala and caudate activity. Additional analyses showed that synchronous amygdala responses were driven by energy-related features in the music such as root mean square and dissonance, while synchrony in insula was additionally sensitive to acoustic event density. Intersubject synchrony also occurred in the left nucleus accumbens, a region critically implicated in reward processing. Our study demonstrates the feasibility and usefulness of an approach based on ISC to explore the temporal dynamics of music perception and emotion in naturalistic conditions., (© The Author (2015). Published by Oxford University Press. For Permissions, please email: journals.permissions@oup.com.)

Published
2015
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16. Inter-individual variability in metacognitive ability for visuomotor performance and underlying brain structures.

Author

Sinanaj I, Cojan Y, and Vuilleumier P

Subjects
Adult, Conflict, Psychological, Feedback, Sensory physiology, Female, Humans, Male, Prefrontal Cortex physiology, Proprioception physiology, Young Adult, Cerebral Cortex physiology, Individuality, Metacognition physiology, Psychomotor Performance physiology
Abstract

Metacognition refers to the ability to discriminate between one's own correct and incorrect decisions. The neurobiological underpinnings of metacognition have mainly been studied in perceptual decision-making. Here we investigated whether differences in brain structure predict individual variability in metacognitive sensitivity for visuomotor performance. Participants had to draw straight trajectories toward visual targets, which could unpredictably deviate around detection threshold, report such deviations when detected, and rate their confidence level for such reports. Structural brain MRI analyses revealed that larger gray-matter volume (GMV) in the left middle occipital gyrus, left medial parietal cortex, and right postcentral gyrus predicted higher deviation detection sensitivity. By contrast, larger GMV in the right prefrontal cortex but also right anterior insula and right fusiform gyrus predicted higher metacognitive sensitivity. These results extend past research by linking metacognitive sensitivity for visuomotor behavior to brain areas involved in action agency (insula), executive control (prefrontal cortex) and vision (fusiform)., (Copyright © 2015 Elsevier Inc. All rights reserved.)

Published
2015
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17. What makes your brain suggestible? Hypnotizability is associated with differential brain activity during attention outside hypnosis.

Author

Cojan Y, Piguet C, and Vuilleumier P

Subjects
Adult, Female, Gyrus Cinguli physiology, Humans, Male, Parietal Lobe physiology, Attention physiology, Executive Function physiology, Hypnosis, Magnetic Resonance Imaging methods, Nerve Net physiology, Prefrontal Cortex physiology, Psychomotor Performance physiology
Abstract

Theoretical models of hypnosis have emphasized the importance of attentional processes in accounting for hypnotic phenomena but their exact nature and brain substrates remain unresolved. Individuals vary in their susceptibility to hypnosis, a variability often attributed to differences in attentional functioning such as greater ability to filter irrelevant information and inhibit prepotent responses. However, behavioral studies of attentional performance outside the hypnotic state have provided conflicting results. We used fMRI to investigate the recruitment of attentional networks during a modified flanker task in High and Low hypnotizable participants. The task was performed in a normal (no hypnotized) state. While behavioral performance did not reliably differ between groups, components of the fronto-parietal executive network implicated in monitoring (anterior cingulate cortex; ACC), adjustment (lateral prefrontal cortex; latPFC), and implementation of attentional control (intraparietal sulcus; IPS) were differently activated depending on the hypnotizability of the subjects: the right inferior frontal gyrus (rIFG) was more recruited, whereas IPS and ACC were less recruited by High susceptible individuals compared to Low. Our results demonstrate that susceptibility to hypnosis is associated with particular executive control capabilities allowing efficient attentional focusing, and point to specific neural substrates in right prefrontal cortex., Significance Statement: We demonstrated that outside hypnosis, low hypnotizable subjects recruited more parietal cortex and anterior cingulate regions during selective attention conditions suggesting a better detection and implementation of conflict. However, outside hypnosis the right inferior frontal gyrus (rIFG) was more recruited by highly hypnotizable subjects during selective attention conditions suggesting a better control of conflict. Furthermore, in highly hypnotizable subjects this region was more connected to the default mode network suggesting a tight dialogue between internally and externally driven processes that may permit higher flexibility in attention and underlie a greater ability to dissociate., (Copyright © 2015 Elsevier Inc. All rights reserved.)

Published
2015
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18. Neural correlates of generation and inhibition of verbal association patterns in mood disorders.

Author

Piguet C, Desseilles M, Cojan Y, Sterpenich V, Dayer A, Bertschy G, and Vuilleumier P

Subjects
Adolescent, Adult, Brain physiopathology, Brain Mapping, Cognition, Emotions, Female, Humans, Inhibition, Psychological, Magnetic Resonance Imaging, Male, Middle Aged, Nerve Net physiopathology, Reading, Semantics, Word Association Tests, Young Adult, Association, Mood Disorders psychology
Abstract

Objectives: Thought disorders such as rumination or flight of ideas are frequent in patients with mood disorders, and not systematically linked to mood state. These symptoms point to anomalies in cognitive processes mediating the generation and control of thoughts; for example, associative thinking and inhibition. However, their neural substrates are not known., Method: To obtain an ecological measure of neural processes underlying the generation and suppression of spontaneous thoughts, we designed a free word association task during fMRI allowing us to explore verbal associative patterns in patients with mood disorders and matched controls. Participants were presented with emotionally negative, positive or neutral words, and asked to produce two words either related or unrelated to these stimuli., Results: Relative to controls, patients produced a reverse pattern of answer typicality for the related vs unrelated conditions. Controls activated larger semantic and executive control networks, as well as basal ganglia, precuneus and middle frontal gyrus. Unlike controls, patients activated fusiform gyrus, parahippocampal gyrus and medial prefrontal cortex for emotional stimuli., Conclusions: Mood disorder patients are impaired in automated associative processes, but prone to produce more unique/personal associations through activation of memory and self-related areas., (© The Author (2014). Published by Oxford University Press. For Permissions, please email: journals.permissions@oup.com.)

Published
2015
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19. Neural substrates of rumination tendency in non-depressed individuals.

Author

Piguet C, Desseilles M, Sterpenich V, Cojan Y, Bertschy G, and Vuilleumier P

Subjects
Adolescent, Adult, Brain physiology, Brain Mapping, Female, Functional Neuroimaging, Humans, Magnetic Resonance Imaging, Male, Thinking, Young Adult, Attention physiology, Cognition physiology, Entorhinal Cortex physiology, Obsessive Behavior physiopathology, Visual Cortex physiology
Abstract

The tendency to ruminate, experienced by both healthy individuals and depressed patients, can be quantified by the Ruminative Response Scale (RRS). We hypothesized that brain activity associated with rumination tendency might not only occur at rest but also persist to some degree during a cognitive task. We correlated RRS with whole-brain fMRI data of 20 healthy subjects during rest and during a face categorization task with different levels of cognitive demands (easy or difficult conditions). Our results reveal that the more subjects tend to ruminate, the more they activate the left entorhinal region, both at rest and during the easy task condition, under low attentional demands. Conversely, lower tendency to ruminate correlates with greater activation of visual cortex during rest and activation of insula during the easy task condition. These results indicate a particular neural marker of the tendency to ruminate, corresponding to increased spontaneous activity in memory-related areas, presumably reflecting more internally driven trains of thoughts even during a concomitant task. Conversely, people who are not prone to ruminate show more externally driven activity., (Copyright © 2014 Elsevier B.V. All rights reserved.)

Published
2014
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20. Hypnosis, attachment, and oxytocin:an integrative perspective (1.).

Author

Zelinka V, Cojan Y, and Desseilles M

Subjects
Adult, Child, Gyrus Cinguli physiology, Humans, Psychological Theory, Treatment Outcome, Hypnosis, Integrative Medicine, Object Attachment, Oxytocin blood
Abstract

This article considers links between clinical hypnosis, attachment theory, and oxytocin. First, it proposes that commonalities between clinical hypnosis and attachment theory may improve our understanding of the hypnotherapeutic process. Then, it suggests that an integrative model unifying clinical hypnosis and attachment theory may constitute a link between clinical hypnosis and a neurobiological factor such as oxytocin. Finally, it discusses the implications of these hypotheses for clinical practice and future researches.

Published
2014
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21. Neural substrates of cognitive switching and inhibition in a face processing task.

Author

Piguet C, Sterpenich V, Desseilles M, Cojan Y, Bertschy G, and Vuilleumier P

Subjects
Adult, Emotions physiology, Face, Female, Humans, Image Processing, Computer-Assisted, Magnetic Resonance Imaging, Male, Photic Stimulation, Young Adult, Brain physiology, Brain Mapping, Cognition physiology, Facial Expression, Inhibition, Psychological
Abstract

We frequently need to change our current occupation, an operation requiring additional effortful cognitive demands. Switching from one task to another may involve two distinct processes: inhibition of the previously relevant task-set, and initiation of a new one. Here we tested whether these two processes are underpinned by separate neural substrates, and whether they differ depending on the nature of the task and the emotional content of stimuli. We used functional magnetic resonance imaging in healthy human volunteers who categorize emotional faces according to three different judgment rules (color, gender, or emotional expression). Our paradigm allowed us to separate neural activity associated with inhibition and switching based on the sequence of the tasks required on successive trials. We found that the bilateral medial superior parietal lobule and left intraparietal sulcus showed consistent activation during switching regardless of the task. On the other hand, no common region was activated (or suppressed) as a consequence of inhibition across all tasks. Rather, task-specific effects were observed in brain regions that were more activated when switching to a particular task but less activated after inhibition of the same task. In addition, compared to other conditions, the emotional task elicited a similar switching cost but lower inhibition cost, accompanied by selective decrease in the anterior cingulate cortex when returning to this task shortly after inhibiting it. These results demonstrate that switching relies on domain-general processes mediated by postero-medial parietal areas, engaged across all tasks, but also provide novel evidence that task inhibition produces domain-specific decreases as a function of particular task demands, with only the latter inhibition component being modulated by emotional information., (Copyright © 2013 Elsevier Inc. All rights reserved.)

Published
2013
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22. Distinct patterns of functional brain connectivity correlate with objective performance and subjective beliefs.

Author

Barttfeld P, Wicker B, McAleer P, Belin P, Cojan Y, Graziano M, Leiguarda R, and Sigman M

Subjects
Humans, Magnetic Resonance Imaging, Task Performance and Analysis, Brain physiology
Abstract

The degree of correspondence between objective performance and subjective beliefs varies widely across individuals. Here we demonstrate that functional brain network connectivity measured before exposure to a perceptual decision task covaries with individual objective (type-I performance) and subjective (type-II performance) accuracy. Increases in connectivity with type-II performance were observed in networks measured while participants directed attention inward (focus on respiration), but not in networks measured during states of neutral (resting state) or exogenous attention. Measures of type-I performance were less sensitive to the subjects' specific attentional states from which the networks were derived. These results suggest the existence of functional brain networks indexing objective performance and accuracy of subjective beliefs distinctively expressed in a set of stable mental states.

Published
2013
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23. Time-course of motor inhibition during hypnotic paralysis: EEG topographical and source analysis.

Author

Cojan Y, Archimi A, Cheseaux N, Waber L, and Vuilleumier P

Subjects
Adult, Analysis of Variance, Brain Mapping, Cues, Data Interpretation, Statistical, Evoked Potentials physiology, Female, Functional Laterality physiology, Humans, Male, Prefrontal Cortex physiology, Psychomotor Performance physiology, Reproducibility of Results, Young Adult, Electroencephalography, Hypnosis, Paralysis physiopathology, Paralysis psychology
Abstract

Cognitive hypotheses of hypnotic phenomena have proposed that executive attentional systems may be either inhibited or overactivated to produce a selective alteration or disconnection of some mental operations. Recent brain imaging studies have reported changes in activity in both medial (anterior cingulate) and lateral (inferior) prefrontal areas during hypnotically induced paralysis, overlapping with areas associated with attentional control as well as inhibitory processes. To compare motor inhibition mechanisms responsible for paralysis during hypnosis and those recruited by voluntary inhibition, we used electroencephalography (EEG) to record brain activity during a modified bimanual Go-Nogo task, which was performed either in a normal baseline condition or during unilateral paralysis caused by hypnotic suggestion or by simulation (in two groups of participants, each tested once with both hands valid and once with unilateral paralysis). This paradigm allowed us to identify patterns of neural activity specifically associated with hypnotically induced paralysis, relative to voluntary inhibition during simulation or Nogo trials. We used a topographical EEG analysis technique to investigate both the spatial organization and the temporal sequence of neural processes activated in these different conditions, and to localize the underlying anatomical generators through minimum-norm methods. We found that preparatory activations were similar in all conditions, despite left hypnotic paralysis, indicating preserved motor intentions. A large P3-like activity was generated by voluntary inhibition during voluntary inhibition (Nogo), with neural sources in medial prefrontal areas, while hypnotic paralysis was associated with a distinctive topography activity during the same time-range and specific sources in right inferior frontal cortex. These results add support to the view that hypnosis might act by enhancing executive control systems mediated by right prefrontal areas, but does not produce paralysis via direct motor inhibition processes normally used for the voluntary suppression of actions., (Copyright © 2012 Elsevier Ltd. All rights reserved.)

Published
2013
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24. Prism adaptation enhances activity of intact fronto-parietal areas in both hemispheres in neglect patients.

Author

Saj A, Cojan Y, Vocat R, Luauté J, and Vuilleumier P

Subjects
Adult, Aged, Aged, 80 and over, Attention physiology, Brain Mapping, Female, Functional Laterality physiology, Humans, Image Processing, Computer-Assisted, Magnetic Resonance Imaging, Male, Middle Aged, Nerve Net physiopathology, Neuropsychological Tests, Perceptual Disorders rehabilitation, Photic Stimulation, Adaptation, Physiological physiology, Frontal Lobe physiopathology, Parietal Lobe physiopathology, Perceptual Disorders physiopathology, Visual Perception physiology
Abstract

Unilateral spatial neglect involves a failure to report or orient to stimuli in the contralesional (left) space due to right brain damage, with severe handicap in everyday activities and poor rehabilitation outcome. Because behavioral studies suggest that prism adaptation may reduce spatial neglect, we investigated the neural mechanisms underlying prism effects on visuo-spatial processing in neglect patients. We used functional magnetic resonance imaging (fMRI) to examine the effect of (right-deviating) prisms on seven patients with left neglect, by comparing brain activity while they performed three different spatial tasks on the same visual stimuli (bisection, search, and memory), before and after a single prism-adaptation session. Following prism adaptation, fMRI data showed increased activation in bilateral parietal, frontal, and occipital cortex during bisection and visual search, but not during the memory task. These increases were associated with significant behavioral improvement in the same two tasks. Changes in neural activity and behavior were seen only after prism adaptation, but not attributable to mere task repetition. These results show for the first time the neural substrates underlying the therapeutic benefits of prism adaptation, and demonstrate that visuo-motor adaptation induced by prism exposure can restore activation in bilateral brain networks controlling spatial attention and awareness. This bilateral recruitment of fronto-parietal networks may counteract the pathological biases produced by unilateral right hemisphere damage, consistent with recent proposals that neglect may reflect lateralized deficits induced by bilateral hemispheric dysfunction., (Copyright © 2011 Elsevier Ltd. All rights reserved.)

Published
2013
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25. Neural bases of hypoactive sexual desire disorder in women: an event-related FMRI study.

Author

Bianchi-Demicheli F, Cojan Y, Waber L, Recordon N, Vuilleumier P, and Ortigue S

Subjects
Adult, Case-Control Studies, Erotica, Female, Functional Neuroimaging, Humans, Magnetic Resonance Imaging, Middle Aged, Young Adult, Brain physiopathology, Sexual Dysfunctions, Psychological physiopathology
Abstract

Introduction: Although there is an abundant debate regarding the mechanisms sustaining one of the most common sexual complaints among women, i.e., female hypoactive sexual desire disorder (HSDD), little remains known about the specific neural bases of this disorder., Aim: The main goal of this study was to determine whether women with HSDD showed differential patterns of activation within the brain network that is active for sexual desire in subjects without HSDD., Methods: A total of 28 right-handed women participated in this study (mean age 31.1±7.02 years). Thirteen out of the 28 women had HSDD (HSDD participants), while 15 women reported no hypoactive sexual desire disorder (NHSDD participants). Using event-related functional magnetic resonance imaging (fMRI), we compared the regional cerebral blood flow responses between these two groups of participants, while they were looking at erotic vs. non-erotic stimuli., Main Outcome Measure: Blood-oxygenation level dependent (BOLD) signal changes in response to erotic stimuli (compared with non-erotic stimuli). Statistical Parametric Mapping was used to identify brain regions that demonstrated significant differential activations between stimuli and between groups., Results: As expected, behavioral results showed that NHSDD participants rated erotic stimuli significantly higher than HSDD participants did on a 10-point desirable scale. No rating difference was observed for the non-erotic stimuli between NHSDD and HSDD participants. Our functional neuroimaging results extended these data by demonstrating two distinct types of neural changes in participants with and without HSDD. In comparison with HSDD participants, participants without HSDD demonstrated more activation in brain areas involved in the processing of erotic stimuli, including intraparietal sulcus, dorsal anterior cingulate gyrus, and ento/perirhinal region. Interestingly, HSDD participants also showed additional activations in brain areas associated with higher order social and cognitive functions, such as inferior parietal lobule, inferior frontal gyrus, and posterior medial occipital gyrus., Conclusion: Together, these findings indicate that HSDD participants do not only show a hypo activation in brain areas mediating sexual desire, but also a different brain network of hyper activation, which might reflect differences in subjective, social, and cognitive interpretations of erotic stimuli. Collectively, these data are in line with the incentive motivation model of sexual functioning., (© 2011 International Society for Sexual Medicine.)

Published
2011
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26. [Analgesic placebo effect: contribution of the neurosciences].

Author

Berna C, Cojan Y, Vuilleumier P, and Desmeules J

Subjects
Aged, Chronic Disease, Dopamine pharmacology, Endorphins pharmacology, Female, Humans, Pain etiology, Treatment Outcome, Analgesia psychology, Naloxone therapeutic use, Narcotic Antagonists therapeutic use, Neurosciences, Osteoarthritis, Knee complications, Pain drug therapy, Placebo Effect, Placebos therapeutic use, Prefrontal Cortex drug effects
Abstract

Over the past twenty years, neuroscience has changed our understanding of placebo analgesia. Often perceived by researchers as a response bias adding noise to the assessment of efficacy, in the patients' view, it is associated with charlatanism. The origin of the word, qualifying a patient's response to "please" the doctor, did not help its rightful appreciation. However, today the placebo analgesia is considered as a psychobiological phenomenon. Thanks to pharmacological manipulations and the development of functional brain imaging, the neural circuitry involved in this effect as well as the role of endorphins and dopamine have been identified. This article describes our current knowledge about this fascinating phenomenon: a psychological modulation can lead to a biological effect.

Published
2011

27. Motor inhibition in hysterical conversion paralysis.

Author

Cojan Y, Waber L, Carruzzo A, and Vuilleumier P

Subjects
Adult, Conversion Disorder diagnosis, Female, Humans, Image Interpretation, Computer-Assisted, Magnetic Resonance Imaging, Movement physiology, Neural Pathways physiopathology, Paralysis pathology, Paralysis physiopathology, Brain physiopathology, Brain Mapping, Conversion Disorder physiopathology
Abstract

Brain mechanisms underlying hysterical conversion symptoms are still poorly known. Recent hypotheses suggested that activation of motor pathways might be suppressed by inhibitory signals based on particular emotional situations. To assess motor and inhibitory brain circuits during conversion paralysis, we designed a go-nogo task while a patient underwent functional magnetic resonance imaging (fMRI). Preparatory activation arose in right motor cortex despite left paralysis, indicating preserved motor intentions, but with concomitant increases in vmPFC regions that normally mediate motivational and affective processing. Failure to execute movement on go trials with the affected left hand was associated with activations in precuneus and ventrolateral frontal gyrus. However, right frontal areas normally subserving inhibition were activated by nogo trials for the right (normal) hand, but not during go trials for the left hand (affected by conversion paralysis). By contrast, a group of healthy controls who were asked to feign paralysis showed similar activation on nogo trials and left-go trials with simulated weakness, suggesting that distinct inhibitory mechanisms are implicated in simulation and conversion paralysis. In the patient, right motor cortex also showed enhanced functional connectivity with the posterior cingulate cortex, precuneus, and vmPFC. These results suggest that conversion symptoms do not act through cognitive inhibitory circuits, but involve selective activations in midline brain regions associated with self-related representations and emotion regulation.

Published
2009
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28. The brain under self-control: modulation of inhibitory and monitoring cortical networks during hypnotic paralysis.

Author

Cojan Y, Waber L, Schwartz S, Rossier L, Forster A, and Vuilleumier P

Subjects
Analysis of Variance, Attention, Decision Making physiology, Functional Laterality physiology, Humans, Hypnosis methods, Image Processing, Computer-Assisted methods, Magnetic Resonance Imaging methods, Motor Cortex blood supply, Neural Pathways physiopathology, Neuropsychological Tests, Oxygen blood, Paralysis etiology, Psychomotor Performance physiology, Reaction Time physiology, Brain Mapping, Inhibition, Psychological, Motor Cortex physiopathology, Movement physiology, Paralysis pathology, Self Concept
Abstract

Brain mechanisms of hypnosis are poorly known. Cognitive accounts proposed that executive attentional systems may cause selective inhibition or disconnection of some mental operations. To assess motor and inhibitory brain circuits during hypnotic paralysis, we designed a go-no-go task while volunteers underwent functional magnetic resonance imaging (fMRI) in three conditions: normal state, hypnotic left-hand paralysis, and feigned paralysis. Preparatory activation arose in right motor cortex despite left hypnotic paralysis, indicating preserved motor intentions, but with concomitant increases in precuneus regions that normally mediate imagery and self-awareness. Precuneus also showed enhanced functional connectivity with right motor cortex. Right frontal areas subserving inhibition were activated by no-go trials in normal state and by feigned paralysis, but irrespective of motor blockade or execution during hypnosis. These results suggest that hypnosis may enhance self-monitoring processes to allow internal representations generated by the suggestion to guide behavior but does not act through direct motor inhibition.

Published
2009
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