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  • About
  • The Global ETD Search service is a free service for researchers to find electronic theses and dissertations. This service is provided by the Networked Digital Library of Theses and Dissertations.
    Our metadata is collected from universities around the world. If you manage a university/consortium/country archive and want to be added, details can be found on the NDLTD website.
21

Contribution des régions fronto-striatales dans les fonctions exécutives

Provost, Jean-Sébastien 08 1900 (has links)
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.
22

L’influence de la stratégie de navigation dans un environnement virtuel sur l’activité cérébrale en EEG

Laflamme, Hugo 08 1900 (has links)
No description available.
23

Studies on Premenstrual Dysphoria

Eriksson, Olle January 2005 (has links)
<p>Premenstrual dysphoria, so severe that it affects the lives of the women afflicted, is the condition studied in this thesis. Physiological and pharmacological mechanisms of pathogenetic relevance were investigated. </p><p>Women with premenstrual dysphoria showed a stronger and less dampened response of LH to an estradiol challenge than asymptomatic women, indicating an altered neuroendocrine regulation. In women with premenstrual dysphoria, the LH response was correlated to the severity of irritability and bloating, and the early FSH response was correlated to the severity of depressed mood. </p><p>The positron-emission study showed strong, consistent correlations between worsening of mood symptoms and a decrease in brain trapping of the immediate serotonin precursor, from the mid-follicular to the late luteal phase in women with premenstrual dysphoria. The strongest correlations were seen for the cardinal mood symptoms of premenstrual dysphoria, and for their opposites. Physical symptoms showed weaker or no correlations with the exception of nociceptive symptoms from erogenous body regions which showed positive correlations to serotonin precursor trapping in the right caudate nucleus. The findings are consistent with the serotonin hypothesis of premenstrual dysphoria, and might possibly explain the observed effects of serotonin-augmenting drugs in this condition.</p><p>The partial 5-HT<sub>1A</sub> receptor agonist buspirone was superior to placebo in the treatment of premenstrual dysphoria. The weak SRI and 5-HT<sub>2</sub> receptor antagonist nefazodone was not superior to placebo. For women with premenstrual dysphoria in need of medication and who do not tolerate SRIs because of the sexual sideeffects, buspirone may be an alternative drug, since it had no adverse effects on sexual function. </p><p>The prevalence of polycystic ovaries and serum levels of androgens were not higher in women with premenstrual dysphoria than in their asymptomatic counterparts. The findings are not consistent with the hypothesis that irritability in women with premenstrual dysphoria is induced by elevated testosterone levels. </p><p>Thesis results, which are in line with the serotonin hypothesis of premenstrual dysphoria, may imply that increased brain sensitivity is one of the factors underlying severe premenstrual mood symptoms, thereby further supporting a common serotonergic dysregulation in this condition.</p>
24

Studies on Premenstrual Dysphoria

Eriksson, Olle January 2005 (has links)
Premenstrual dysphoria, so severe that it affects the lives of the women afflicted, is the condition studied in this thesis. Physiological and pharmacological mechanisms of pathogenetic relevance were investigated. Women with premenstrual dysphoria showed a stronger and less dampened response of LH to an estradiol challenge than asymptomatic women, indicating an altered neuroendocrine regulation. In women with premenstrual dysphoria, the LH response was correlated to the severity of irritability and bloating, and the early FSH response was correlated to the severity of depressed mood. The positron-emission study showed strong, consistent correlations between worsening of mood symptoms and a decrease in brain trapping of the immediate serotonin precursor, from the mid-follicular to the late luteal phase in women with premenstrual dysphoria. The strongest correlations were seen for the cardinal mood symptoms of premenstrual dysphoria, and for their opposites. Physical symptoms showed weaker or no correlations with the exception of nociceptive symptoms from erogenous body regions which showed positive correlations to serotonin precursor trapping in the right caudate nucleus. The findings are consistent with the serotonin hypothesis of premenstrual dysphoria, and might possibly explain the observed effects of serotonin-augmenting drugs in this condition. The partial 5-HT1A receptor agonist buspirone was superior to placebo in the treatment of premenstrual dysphoria. The weak SRI and 5-HT2 receptor antagonist nefazodone was not superior to placebo. For women with premenstrual dysphoria in need of medication and who do not tolerate SRIs because of the sexual sideeffects, buspirone may be an alternative drug, since it had no adverse effects on sexual function. The prevalence of polycystic ovaries and serum levels of androgens were not higher in women with premenstrual dysphoria than in their asymptomatic counterparts. The findings are not consistent with the hypothesis that irritability in women with premenstrual dysphoria is induced by elevated testosterone levels. Thesis results, which are in line with the serotonin hypothesis of premenstrual dysphoria, may imply that increased brain sensitivity is one of the factors underlying severe premenstrual mood symptoms, thereby further supporting a common serotonergic dysregulation in this condition.

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