Impact des polymorphismes 5-HTTLPR et rs4675690 sur les corrélats neuronaux de la tristesse chez les enfants

Fortier, Emilie

05 1900

Les avancées technologiques rendent maintenant possible d’étudier l’impact de gènes spécifiques sur les corrélats cérébraux des psychopathologies. En rapport avec ce nouveau champ de recherche, la présente thèse décrit l’impact du 5-HTTLPR et du rs4675690 – deux polymorphismes semblant jouer un rôle dans le trouble dépressif majeur - sur les corrélats neuronaux de l’expérience subjective de la tristesse chez les enfants. Après une mise en contexte (Chapitre 1), les deux études incluses dans cette thèse seront décrites (Chapitre 2 et 3). Ces études d’imagerie par résonance magnétique fonctionnelle visaient à comparer les patrons d’activation – durant un état temporaire de tristesse - chez des enfants de 8 ans porteurs d’allèles différents. La tristesse était induite grâce au visionnement passif d’extraits d’un film triste. Les résultats suggèrent que les deux polymorphismes ont un impact sur les activations cérébrales associées à la tristesse. Spécifiquement, les enfants porteurs des allèles associés à un plus grand risque de développer un trouble dépressif majeur, soit les porteurs de l’allèle court du 5-HTTLPR et les individus homozygotes pour l’allèle T du rs4675690, ont présenté des activations cérébrales altérées dans des régions qui sont impliquées dans la tristesse normale et pathologique. Le Chapitre 4 présente la mise en perspective des résultats dans le cadre de la littérature actuelle. / Recent technological advances allow us to study the impact of genes on the specific cerebral correlates of psychopathologies. In accordance with this new specific area of research, the present thesis describes the impact of the 5-HTTLPR and the rs4675690 - two polymorphisms who seem to play a role in major depressive disorder - on the neural correlates of the subjective experience of sadness in children. Following a review of the literature (Chapter 1), the two studies included in this thesis will be described (Chapter 2 and 3). These functional magnetic resonance imaging studies aimed to compare the activation pattern – during a transient state of sadness - in children of 8 years old carriers of different alleles. Sadness was induced by the passive viewing of sad film extracts. The results suggest that both polymorphisms have an impact on the cerebral activation associated with sadness. Specifically, children who were carriers of the allele associated with greater risk to develop major depressive disorder - carriers of the short allele of the 5-HTTLPR and homozygote for the T allele of the rs4675690) - showed altered cerebral activations in regions known to be implicated in normal and pathological sadness. Chapter 4 present an integration of the result to the current literature.

Dépression

Depression

Génétique

Genetic

Functional magnetic resonance imaging

enfants

children

5-HT

5-HT

CREB

CREB

Contribution des régions fronto-striatales dans les fonctions exécutives

Provost, Jean-Sébastien

08 1900

Des études récentes ont montré que le noyau caudé interagissait avec le cortex préfrontal et qu’il pourrait être impliqué dans les fonctions exécutives. Le but de cette thèse était d’étudier la contribution du noyau caudé dans les fonctions exécutives, plus précisément dans des tâches de monitoring et de changement de règle, et d’observer comment ces régions fronto-striatales interagissent avec le réseau par défaut (RPD). Dans un premier temps, nous avons étudié le rôle du noyau caudé dans les deux types de monitoring : le monitoring d’origine interne, consistant à effectuer un suivi sur l’état de l’information en mémoire de travail afin de pouvoir faire un choix subséquent, et dans le monitoring d’origine externe où le suivi sur l’état des items est effectué par l’individu, mais la sélection est exécutée par une source externe. Il a été montré que le cortex préfrontal dorsolatéral (CPFDL) est impliqué dans les deux types de monitoring. À l’aide de l’imagerie par résonance magnétique fonctionnelle (IRMf), nos résultats ont montré une augmentation significative du signal BOLD au niveau du CPFDL dans les contrastes des conditions de monitoring d’origine interne et monitoring d’origine externe par rapport à la condition contrôle. De manière plus importante, une augmentation significative de l’activité a été observée dans le noyau caudé seulement dans les soustractions impliquant le monitoring d’origine interne par rapport à la condition contrôle, et par rapport à la condition de monitoring d’origine externe. En deuxième lieu, des études ont montré une contribution spécifique des régions fronto-striatales dans l’exécution d’un changement de règle. Toutefois, l’effet d’un changement de règle sur l’activité cérébrale n’a jamais été étudié sur les essais subséquents. À l’aide de l’IRMf, le cortex préfrontal ventrolatéral (CPFVL) et le noyau caudé ont montré une augmentation significative de leur activité lors des changements de règle continus et lors des changements de règles sporadiques par rapport à la condition contrôle, et aussi lors des essais où le maintien d’une même règle devait être effectué pour une courte durée par opposition au contrôle. Cependant, aucune activité fronto-striatale n’a été observée lorsqu’une même règle devait être appliquée pour une plus longue période. De plus, une diminution significative de l’activité du noyau caudé a été observée lors de la répétition de l’exécution d’une même règle suggérant une meilleure intégration de cette dernière. Finalement, plusieurs études ont montré une déactivation du RPD lors de l’exécution de tâches. À l’aide de l’IRMf, nous avons posé l’hypothèse que le RPD serait corrélé négativement avec les régions fronto-striatales lors de l’exécution d’une tâche de changement de règle. Nos résultats montrent une augmentation significative de l’activité des régions fronto-striatales lors d’une augmentation du nombre d’essais de changement de règle consécutif, pendant que le RPD montre une déactivation continue. De façon intéressante, pendant que les régions fronto-striatales montrent une diminution de leur activité lors de l’exécution d’une même règle pour une longue période, le RPD augmente son activité de façon significative. On conclut donc que le noyau caudé joue un rôle important dans la planification d’une nouvelle action lorsque plusieurs possibilités doivent être considérées en mémoire de travail, et ce en même temps. Finalement, le RPD montre une corrélation négative avec les régions fronto-striatales suggérant sa participation dans l’intégration d’une tâche devenant de plus en plus familière. / Recent studies have shown that the caudate nucleus interacts with the prefrontal cortex, and that it is involved in executive processes. The goal of the thesis was to investigate the role of the caudate nucleus in executive processes, and to observe how the frontostriatal regions are interacting with the default mode network (DMN). Firstly, we studied the role of the caudate nucleus in self-ordered monitoring, which consist of keeping track of which stimuli have been selected and which remains to be selected, and externally-triggered monitoring, which refers to keeping track of one’s selection when an external source is performing the selection. It has been shown that de dorsolateral prefrontal cortex (DLPFC) was particularly involved in both types of monitoring. Using functional magnetic resonance imaging (fMRI), a significant increase of activity has been observed in the DLPFC during both monitoring conditions vs control condition. Importantly, significant increased activity in the caudate nucleus was observed only in subtractions involving self-ordered monitoring (the self-ordered vs control and self-ordered vs externally-triggered conditions). Secondly, previous studies have shown a specific contribution of frontostriatal regions during set-shifting. However, the effect of set-shifting on subsequent trials had yet to be determined. Using fMRI, significant increase of activity was observed in the ventrolateral prefrontal cortex (VLPFC) and the caudate nucleus during shifting trials versus control and in trials where the same rule was applied for a few trials before a set-shift occurred. However, no frontostriatal activity was observed when the same rule was applied for a longer period. Decreased activity in the caudate nucleus correlated with increasing trial position in trials where no set-shift occurred, suggesting that the more a rule is executed, the better it is established. Finally, several studies have shown a deactivation of the DMN during the execution of a goal-directed task. Using fMRI, we hypothesized that the DMN was negatively correlated with the frontostriatal regions during the execution of a set-shifting task. Our results showed a significant increase of activity in the frontostriatal regions as more set-shifts are being performed while the DMN gets more deactivated. Interestingly, as decreased activity was observed in the frontostriatal regions during the execution of the same rule for a long period, the DMN showed increasing activity. We concluded that the caudate nucleus is specifically involved during the planning of a novel action when several possibilities are available at the same time. Finally, the DMN shows a negative correlation with the frontostriatal regions suggesting its contribution to the execution of a more familiar task.

Cortex préfrontal

noyau caudé

fonctions exécutives

changement de règle

prefrontal cortex

caudate nucleus

functional magnetic resonance imaging

set-shifting

executive processes

Sex Differences in the Connectivity of the Subgenual Anterior Cingulate Cortex: Implications for Pain Habituation

Wang, Gang

11 December 2013

Women exhibit greater habituation to painful stimuli than men. The neural mechanism underlying this sex difference is unknown. However, pain habituation has been associated with pain-evoked activity of the subgenual anterior cingulate cortex (sgACC), implicating a connection between the sgACC and the descending pain antinociceptive system. Therefore, the thesis hypothesis was that women have stronger connectivity than men between the sgACC and the descending antinociceptive system. Healthy subjects provided informed consent. 3T MRI images included anatomical diffusion-weighted imaging for structural connectivity analyses (SC) with probabilistic tractography and resting-state functional images for functional connectivity (FC) analyses. Women had stronger sgACC FC with nodes of the descending pain modulation system (raphe, PAG) and the medial thalamus. In contrast, men had stronger sgACC FC with nodes of the salience/attention network (anterior insula, TPJ) and stronger sgACC SC with the hypothalamus. These findings implicate a mechanism for pain habituation and its associated sex differences.

Functional magnetic resonance imaging

Diffusion tensor imaging

Sex differences

Pain

Habituation

Subgenual anterior cingulate cortex

Neuroscience

Functional connectivity

Structural connectivity

Neuroimaging

Clinical

Programming

Descending pain modulation

0317

0719

0564

高社會焦慮者在增加聯結的自我參照靜息態功能網絡初探 / Hyper-Connectivity of Self-Referential Resting-State Networks in Individuals with High Social Anxiety

李炯德

Unknown Date

本研究的主要目的在於運用靜息態功能性磁振造影技術來探討高社會焦慮的自我參照處理腦區的功能聯結。根據Clark和Wells(1995)的模型，高社會焦慮者的負向自我心象只透過自我相關的在線索來建構；然而根據Rapee和Heimberg(1997)的模型則假設高社會焦慮者還會納入他人外在訊息，做自我與他人參照訊息的處理。本研究企圖透過神經影像的發現來檢測上述兩個模型。 本研究篩選出四十名大學生分為高社會焦慮組與低社會焦慮組，所有受試者都會進行靜息態功能性磁振造影的掃描，並使用MPFC、PCC、ACC、VMPFC、DMPFC作為種子進行全腦的功能聯結分析並獲得功能聯結圖譜做比較。 研究結果發現高社會焦慮者的MPFC、PCC、ACC都有增加的功能聯結，顯示他們比一般人更容易做自我參照處理，而VMPFC、DMPFC同時有增加的功能聯結，代表高社會焦慮者的自我參照處理除了自我內在的相關訊息外，還會包含他人外在相關訊息的處理，研究結果較支持Rapee和Heimberg(1997)的說法。最後並提出本論文研究限制，與對社會焦慮症的臨床理論與實務上之建議。 / The purpose of the present study was to utilize the resting-state functional magnetic resonance imaging(RS-fMRI) technique to investigate the brain regions in functional connectivity of self-referential processing in socially anxious individuals. According to Clark and Wells’ (1995) view, socially anxious individuals were hypothesized to construct their negative self-image with self-related internal information. However, according to Repee and Heimberg’ s (1997) model, they supposed that socially anxious individuals also brought other-related external information to make other-related external information self-referential and other-referential be processed. The present study was designed to use finding of neuroimaging to examine the two models Forty undergraduate students were assigned to either high or low social-anxiety group. All subjects were asked to be scanned with RS-fMRI. MPFC, PCC, ACC, VMPFC, DMPFC were used as seeds to proceed the whole-brain functional connectivity analysis and acquired functional connectivity maps for comparison. The results revealed that functional connectivity of MPFC, PCC, ACC of high social anxiety group increased, it displayed that they were more easily to do self-referential processing. Besides, functional connectivity of VMPFC and DMPFC also increased simultaneously, which means that the self-referential processing of high social anxiety group not only included self-related internal information but also included other-related external information. The result supported Repee and Heimberg’ s model. The limitations of this study and the suggestions for the theories and clinical treatment of social anxiety disorder were advanced in the end.

自我參照處理

社會焦慮

靜息態功能性磁振造影

功能聯結

self-referential processing

social anxiety

functional connectivity

Enhanced Sympathetic Arousal in Response to fMRI Scanning Correlates with Task Induced Activations and Deactivations

Mühlhan, Markus, Lüken, Ulrike, Siegert, Jens, Wittchen, Hans-Ulrich, Smolka, Michael N., Kirschbaum, Clemens

22 January 2014

It has been repeatedly shown that functional magnetic resonance imaging (fMRI) triggers distress and neuroendocrine response systems. Prior studies have revealed that sympathetic arousal increases, particularly at the beginning of the examination. Against this background it appears likely that those stress reactions during the scanning procedure may influence task performance and neural correlates. However, the question how sympathetic arousal elicited by the scanning procedure itself may act as a potential confounder of fMRI data remains unresolved today. Thirty-seven scanner naive healthy subjects performed a simple cued target detection task. Levels of salivary alpha amylase (sAA), as a biomarker for sympathetic activity, were assessed in samples obtained at several time points during the lab visit. SAA increased two times, immediately prior to scanning and at the end of the scanning procedure. Neural activation related to motor preparation and timing as well as task performance was positively correlated with the first increase. Furthermore, the first sAA increase was associated with task induced deactivation (TID) in frontal and parietal regions. However, these effects were restricted to the first part of the experiment. Consequently, this bias of scanner related sympathetic activation should be considered in future fMRI investigations. It is of particular importance for pharmacological investigations studying adrenergic agents and the comparison of groups with different stress vulnerabilities like patients and controls or adolescents and adults.

Funktioneller Magnetresonanztomographie

sympathische Aktivität

TU Dresden

Publikationsfonds

Functional magnetic resonance imaging

sympathetic arousal

Cognition

Human learning

Magnetic resonance imaging

Neuroimaging

Psychological stress

Saliva

Secretion

Technical University Dresden

Publication funds

ddc:610

rvk:XA 10000

The Impact of Genome-Wide Supported Schizophrenia Risk Variants in the Neurogranin Gene on Brain Structure and Function

Walton, Esther, Geisler, Daniel, Hass, Johannes, Liu, Jingyu, Turner, Jessica, Yendiki, Anastasia, Smolka, Michael N., Ho, Beng-Choon, Manoach, Dara S., Gollub, Randy L., Rößner, Veit, Calhoun, Vince D., Ehrlich, Stefan

06 February 2014

The neural mechanisms underlying genetic risk for schizophrenia, a highly heritable psychiatric condition, are still under investigation. New schizophrenia risk genes discovered through genome-wide association studies (GWAS), such as neurogranin (NRGN), can be used to identify these mechanisms. In this study we examined the association of two common NRGN risk single nucleotide polymorphisms (SNPs) with functional and structural brain-based intermediate phenotypes for schizophrenia. We obtained structural, functional MRI and genotype data of 92 schizophrenia patients and 114 healthy volunteers from the multisite Mind Clinical Imaging Consortium study. Two schizophrenia-associated NRGN SNPs (rs12807809 and rs12541) were tested for association with working memory-elicited dorsolateral prefrontal cortex (DLPFC) activity and surface-wide cortical thickness. NRGN rs12541 risk allele homozygotes (TT) displayed increased working memory-related activity in several brain regions, including the left DLPFC, left insula, left somatosensory cortex and the cingulate cortex, when compared to non-risk allele carriers. NRGN rs12807809 non-risk allele (C) carriers showed reduced cortical gray matter thickness compared to risk allele homozygotes (TT) in an area comprising the right pericalcarine gyrus, the right cuneus, and the right lingual gyrus. Our study highlights the effects of schizophrenia risk variants in the NRGN gene on functional and structural brain-based intermediate phenotypes for schizophrenia. These results support recent GWAS findings and further implicate NRGN in the pathophysiology of schizophrenia by suggesting that genetic NRGN risk variants contribute to subtle changes in neural functioning and anatomy that can be quantified with neuroimaging methods.

Allele

Antipsychotika

Neuroleptika

Funktionelle Magnetresonanztomographie

Haplotyp

Phänotyp

Schizophrenie

Genotyp

Arbeitsgedächtnis

TU Dresden

Publikationsfonds

Alleles

Antipsychotics

Functional magnetic resonance imaging

Haplotypes

Phenotypes

Schizophrenia

Variant genotypes

Working memory

Technical University Dresden

Publication funds

ddc:610

rvk:XA 10000

What Happens Before Chemotherapy?! Neuro-anatomical and -functional MRI Investigations of the Pre-chemotherapy Breast Cancer Brain.

Scherling, Carole Susan

17 November 2011

The side-effects of chemotherapy treatment are an increasingly important research focus as more cancer patients are reaching survivorship. While treatment allows for survival, it can also lead to problems which can significantly affect quality of life. Cognitive impairments after chemotherapy treatment are one such factor. First presented as anecdotal patient reports, over the last decade empirical evidence for this cognitive concern has been obtained. Much attention has been focused on post-chemotherapy research, yet little attention has been granted to these same patients’ cognition before treatment commences. Breast cancer (BC) patients face many obstacles before chemotherapy treatment such as: surgery and side-effects of anesthesia, increased cytokine activity, stress of a new disease diagnosis and upcoming challenges, and emotional burdens such as depression and anxiety. Many of these factors have independently been shown to affect cognitive abilities in both healthy populations as well as other patient groups. Therefore, the pre-treatment (or baseline) BC patient status warrants systematic study. This would then reduce mistakenly attributing carried-over cognitive deficits to side effects of chemotherapy. As well, it is possible that certain confounding variables may have neural manifestations at baseline that could be exacerbated by chemotherapy agents. The following thesis first presents a review paper which critically describes the current literature examining chemotherapy-related cognitive impairments (CRCIs), as well as possible confound variables affecting this population. Subsequently, three original research papers present pre-chemotherapy data showing significant neuroanatomical and neurofunctional differences in BC patients compared to controls. In particular, these neural differences are present in brain regions that have been reported in post-chemotherapy papers. This, as well as the effects of variables such as the number of days since surgery, depression and anxiety scores and more, support the initiative that research attention should increase focus on these patients at baseline in order to better understand their post-chemotherapy results.

Cognitive impairment

magnetic resonance imaging (MRI)

pre-treatment effects

breast cancer

chemotherapy

chemofog

chemobrain

surgery

neuropsychology

working memory

response inhibition

voxel-based morphometry (VBM)

cortisol

How the past becomes present neural mechanisms governing retrieval from episodic memory /

Kompus, Kristiina,

January 2010

Diss. (sammanfattning) Umeå : Umeå universitet, 2010.

Early adversity, psychosis risk and brain response to faces

Lieslehto, J. (Johannes)

30 October 2018

Abstract Schizophrenia and other psychotic disorders are severe and disabling mental disorders that break out during early adulthood, often when a person is in his/her early 20s. Furthermore, functional decline in many cognitive areas, including the ability to communicate in social interactions and impaired facial expression recognition, is typical to patients with schizophrenia. Understanding the risk factors of psychosis is essential as these disorders may be more amenable to treatment in their early stages. However, recognition of those at the highest risk of psychosis is challenging as no definitive biomarkers are available. Functional MRI is a promising tool that can potentially identify neural signals relating to the individual’s risk of psychosis onset. Psychotic disorders are etiologically heterogeneous disorders — both environmental and genetic factors have been linked to the onset of psychotic disorders. The most influential risk factor for a psychotic disorder is familial risk with genetic loading. The present study examines whether familial risk of psychosis (FR), the polygenic risk score for schizophrenia (PRS) and early adversity associate with brain response to faces. We used fMRI to measure blood oxygen level dependent (BOLD) response to faces. Our study showed that FR associated with deviant prefrontal cortex BOLD responses. In addition, we detected that interregional BOLD signal and grey matter volume varied as a function of PRS; the lowest functional and structural covariance was detected in individuals with high PRS. We also detected that early adversities associated with brain response to faces and that this association varied as a function of glucocorticoid receptor gene expression. Our findings indicate that the above risk factors of psychosis associate with brain response to faces. / Tiivistelmä Skitsofrenia ja muut psykoosisairaudet ovat vakavia mielenterveyden häiriöitä, jotka puhkeavat usein nuorella aikuisiällä. Eräs tyypillinen piirre psykoosisairauksille on vaikeus tunnistaa muiden ihmisten kasvonilmeitä. Psykoosisairauksien riskitekijöiden ymmärtäminen on tärkeää, sillä hoito tehoaa parhaiten sairastumisen alkuvaiheessa. Suurimmassa psykoosivaarassa olevien henkilöiden tunnistaminen on kuitenkin haastavaa, sillä luotettavia tautiin liittyviä biomarkkereita ei ole saatavilla. Toiminnallinen magneettikuvaus (fMRI) on lupaava työkalu, jolla saattaa olla tulevaisuudessa käyttöarvoa psykoosivaaraan liittyvien aivomuutosten tunnistamisessa. Etiologialtaan psyykoosisairaudet ovat heterogeenisiä: sekä ympäristö että perinnölliset tekijät vaikuttavat yksilön sairastumisriskiin. Voimakkain riskitekijä on suvullinen psykoosialttius. Tässä osajulkaisuväitöskirjassa tutkitaan suvullisen psykoosialttiuden, skitsofrenian polygeenisen riskipisteen (PRS) sekä varhaisten vastoinkäymisten yhteyttä aivojen kasvonilmeitä tulkitsevaan järjestelmään. Tutkimuksessa on hyödynnetty fMRI-kuvausta kasvonilmestimuluksen aikana. Tutkimuksessamme suvullinen psykoosialttius oli yhteydessä etuotsalohkon fMRI-signaalimuutoksiin. Tämän lisäksi havaitsimme, että kasvonilmejärjestelmän fMRI-signaalin ja harmaan aineen kovarianssi oli yhteydessä PRS:ään: matalin aivoalueiden välinen korrelaatio havaittiin henkilöillä, joiden PRS oli korkea. Havaitsimme myös, että varhaiset vastoinkäymiset ovat yhteydessä kasvonilmeiden aikaansaamiin aivovasteisiin. Tämä assosiaatio oli myös yhteydessä glukokortikoidireseptorin geenin ilmentymiseen. Väitöskirjan löydökset viittaavat siihen, että edellä mainitut psykoosin riskitekijät ovat yhteydessä kasvonilmeitä tulkitsevaan järjestelmään.

birth cohort study

early adulthood

early adversity

familial psychosis risk

polygenic risk score (PRS)

perinnöllinen psykoosiriski

polygeeninen riskipiste (PRS)

syntymäkohortti

varhaiset vastoinkäymiset

Un éclairage nouveau sur les bases neurales de la mentalisation : une étude combinant cartographie multimodale et IRM fonctionnelle de repos chez des patients atteints d’un gliome diffus de bas grade / New insights into the neural bases of mentalizing : a study combining multimodal brain mapping and resting-state functional mri in patients with diffuse low-grade gliomas

Yordanova, Yordanka Nikolova

14 November 2018

La mentalisation, ou la capacité d’élaborer des hypothèses sur les états mentaux d’autrui, a fait l’objet de nombreuses études durant les 20 dernières années dans le champ des neurosciences sociales. Toutefois, les bases neurales de cette fonction particulièrement complexe restent mal comprises, notamment en termes de connectivité structurale. Récemment, une organisation anatomo-fonctionnelle en double voie a été proposée. Selon ce modèle, les aspects réflexifs, inférentiels, de la mentalisation seraient sous-tendus par le faisceau cingulaire. Les aspects préréflexifs, identificatoires, seraient médiés, quant à eux, par le complexe faisceau arqué/partie latérale du faisceau longitudinal supérieur (FLS). L’objectif général de ce travail est d’apporter des données originales sur l’organisation anatomo-fonctionnelle du réseau neural impliqué dans la mentalisation basée sur les visages. Pour ce faire, nous avons utilisé comme modèle physiopathologique d’étude le gliome diffus de bas grade. Cette tumeur cérébrale primitive s’avère particulièrement intéressante pour l’étude du rôle de la substance blanche dans la cognition et ce pour deux raisons : (i) les cellules tumorales se propagent préférentiellement le long des fibres blanches ; (ii) l’exérèse chirurgicale est souvent réalisée en condition éveillée avec cartographie fonctionnelle peropératoire pour permettre d’identifier, et ainsi de préserver, les structures fonctionnelles, notamment de substance blanche.Dans une première étude, grâce aux stimulations électriques peropératoires, nous avons pu identifier un vaste réseau cortico-sous-cortical impliqué dans la mentalisation. L’analyse des déconnexions induites par les stimulations de la substance blanche nous a permis de mettre clairement en évidence, et ce pour la première fois, le rôle du faisceau occipito-frontal inférieur (FOFI) tout en confirmant celui du FLS. Dans une deuxième étude, en utilisant des techniques de cartographie lésionnelle chez des patients ayant été opérés, nous avons démontré que les troubles permanents, non compensables, de la mentalisation étaient expliqués par l’atteinte du faisceau arqué. Enfin, dans une dernière étude, en combinant l’imagerie par résonance magnétique fonctionnelle de repos (IRMfr) et les sites corticaux démasqués pendant la chirurgie, nous avons pu générer de véritables cartographies fonctionnelles du réseau cortical de la mentalisation, très similaires à celles observées en imagerie fonctionnelle classique.De façon générale, nos découvertes suggèrent que la mentalisation basée sur les visages reposerait sur l’intégrité d’au moins deux faisceaux associatifs de substance blanche. Elles permettent également de valider l’utilisation combinée de l’IRMfr et des stimulations corticales en tant qu’approche originale pour cartographier les réseaux neurocognitifs.En plus de ces considérations fondamentales, nos résultats ont des implications cliniques, notamment pour la cartographie fonctionnelle peropératoire. Ils permettent en outre de mieux comprendre les pathologies cérébrales caractérisées par un trouble de la mentalisation et une atteinte des voies de substance blanche. / Mentalizing, or the ability of human beings to make assumptions about other people’s mental states, has been the subject of many studies over the last 20 years. The neural bases and especially the white matter connectivity of this complex cognitive function is still poorly understood. Recently, an anatomo-functional organization into two neural pathways has been proposed. According to this model, it is assumed that the reflective, inferential aspects of mentalizing is underpinned by the cingulum. The reflexive, identificatory aspects of mentalizing are thought to be mediated, for their part, by the arcuate fascicle and the lateral part of the superior longitudinal fascicle. The main purpose of this scientific work is to provide original data on the anatomo-functional organization of the neural network involved in the face-based mentalizing. We used as a pathophysiological study model diffuse low-grade gliomas. These primary brain tumors are particularly interesting for the study of the functional role of the white matter for two reasons: (i) the tumor cells propagate preferentially along the white matter fibers; (ii) the surgical resection is often performed in awake condition with intraoperative functional mapping to identify, and thus to preserve functional structures, including the white matter.In our first study, using intraoperative electrical stimulation, we were able to identify a large cortico-subcortical mentalizing network. The analysis of the disconnections induced by the stimulation of the white matter allowed us to clearly highlight, for the first time, the role of the inferior fronto-occipital fascicle. We also confirmed the already established role of the superior longitudinal fascicle in mentalizing. In a second study, using lesion mapping analyses in patients operated on for a diffuse low-grade glioma, we demonstrated that the long-term, non-compensatory mentalizing deficit was explained by the involvement of the arcuate fascicle. Finally, in a third study combining resting-state functional MRI and the cortical sites unmasked during surgery, we were able to identify a large cortical mentalizing networks, which were very similar to those identified by classical task-based functional imaging.In general, our findings suggest that the face-based mentalizing would require the integrity of at least two associative white matter fascicles. They also validate the combined use of resting-state functional MRI and direct cortical stimulations as an original approach to map neurocognitive networks.In addition to these fundamental considerations, our results have also clinical implications, especially regarding the intraoperative functional mapping. They also provide a better understanding of brain pathologies characterized by both mentalizing deficit and white matter impairment.

Cartographie cérébrale

Cognition sociale

Connectivité

Gliome diffus de bas grade

Mentalisation

Brain mapping

Social cognition

Connectivity

Diffuse low-Grade glioma

Mentalizing