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11	Avaliação da deformação do intermediário e região peri-implantar em função da carga aplicada em coroas unitárias implantossuportadas parafusadas / Evaluation of the deformation in the abutment and peri-implant region according to the load applied in screwed implant-supported single crowns Albarracín, Max Laurent 30 May 2011 (has links) As coroas unitárias metalocerámicas implantossuportadas são amplamente utilizadas na reabilitação de pacientes desdentados. O comportamento mecânico destas coroas é muito importante para entender o processo de transmissão de forças mastigatórias e suas reações no intermediário e na estrutura óssea peri-implantar, mas estes processos ainda não estão totalmente compreendidos. O objetivo deste trabalho foi verificar a deformação gerada no intermediário e no osso peri-implantar de coroas unitárias implantossuportadas após aplicação de carga. Foi utilizado um modelo mestre de poliuretano, simulando o osso mandibular, com um implante hexágono externo de 3,75mm x13 mm de comprimento, no qual foi fixado um intermediário multi-unit (Nobel Biocare, Göteborg, Sweden). O trabalho apresentou 3 grupos com quatro corpos de prova cada, divididos de acordo com o tipo de cilindro e liga de fundição (Cilindro de ouro sobrefundidos com a liga de PdAg, cilindro de CoCr usinado sobrefundidos com a liga de NiCoCr, cilindro de acrílico fundido com a liga de NiCoCr ). Cada corpo de prova foi submetido cinco vezes a aplicação de carga axial de 300N em uma máquina de ensaio universal. A força foi aplicada no centro da oclusal de cada coroa. Foram realizadas leituras das deformações geradas no intermediário e no poliuretano com o uso de extensômetros lineares elétricos os quais foram colados em três faces do intermediário e nas superfícies mesial, vestibular, distal e lingual do osso simulado ao redor do implante. Os dados obtidos foram submetidos a análise de variância (ANOVA) e teste de Tukey (p<0,05). Os resultados do estudo demonstraram que a utilização dos três tipos de cilindro não alteram o resultado final de distribuição de tensão no intermediário após o carregamento. Adicionalmente as coroas confeccionadas com cilindro de CoCr usinado, tiveram o comportamento mais estável com relação a uniformidade na distribuição das tensões no intermediário e no osso simulado quando comparados com os outros dois grupos (cilindros de Au e Calcinável). / The metal-ceramic crowns implant-supported are widely used in the rehabilitation of edentulous patients. The mechanical behavior of these crowns is very important to understand the process of transmission of masticatory forces and their reactions at abutment and peri-implant bone structure, but these processes are not fully understood yet. The aim of this study was to verify the deformation in the abutment and peri-implant bone in implant-supported single crowns after load application. Was used a master model of polyurethane simulating the jawbone with an external hexagon implant of 3.75 mm of diameter and 13 mm of length, which was fixed a multi-unit abutment (Nobel Biocare, Göteborg, Sweden). The study presented three groups with four samples each, divided according to type of cylinder and casting alloy (gold cylinder smelting with the PdAg alloy, CoCr cylinder machined cast-on with the league NiCoCr, cast acrylic cylinder with alloy NiCoCr). Each sample was subjected to five times the application of vertical load of 300N on a universal testing machine. The force was applied in the center of the occlusal surface of each crown. Readings were taken of the deformations generated in the abutment and polyurethane with the use of strain gages which were glued on three sides of the abutment and mesial, buccal, lingual and distal surfaces of simulated bone around the implant. The datas were submitted to ANOVA and Tukey test (p<0.05). The study results demonstrated that the use of three types of cylinder does not change the final result of stress distribution in the intermediate after axial loading. Additionally crowns made with machined cylinder CoCr, had more stable with respect to uniform distribution of stresses in the intermediate and the simulated bone when compared with the other two groups (Au and burnout cylinders). Biomecânica Biomechanics Coroa unitária implantossuportada Dental implant Extensômetro Implante dentário Single unit implant-supported crown Strain gage
12	Avaliação da deformação do intermediário e região peri-implantar em função da carga aplicada em coroas unitárias implantossuportadas parafusadas / Evaluation of the deformation in the abutment and peri-implant region according to the load applied in screwed implant-supported single crowns Max Laurent Albarracín 30 May 2011 (has links) As coroas unitárias metalocerámicas implantossuportadas são amplamente utilizadas na reabilitação de pacientes desdentados. O comportamento mecânico destas coroas é muito importante para entender o processo de transmissão de forças mastigatórias e suas reações no intermediário e na estrutura óssea peri-implantar, mas estes processos ainda não estão totalmente compreendidos. O objetivo deste trabalho foi verificar a deformação gerada no intermediário e no osso peri-implantar de coroas unitárias implantossuportadas após aplicação de carga. Foi utilizado um modelo mestre de poliuretano, simulando o osso mandibular, com um implante hexágono externo de 3,75mm x13 mm de comprimento, no qual foi fixado um intermediário multi-unit (Nobel Biocare, Göteborg, Sweden). O trabalho apresentou 3 grupos com quatro corpos de prova cada, divididos de acordo com o tipo de cilindro e liga de fundição (Cilindro de ouro sobrefundidos com a liga de PdAg, cilindro de CoCr usinado sobrefundidos com a liga de NiCoCr, cilindro de acrílico fundido com a liga de NiCoCr ). Cada corpo de prova foi submetido cinco vezes a aplicação de carga axial de 300N em uma máquina de ensaio universal. A força foi aplicada no centro da oclusal de cada coroa. Foram realizadas leituras das deformações geradas no intermediário e no poliuretano com o uso de extensômetros lineares elétricos os quais foram colados em três faces do intermediário e nas superfícies mesial, vestibular, distal e lingual do osso simulado ao redor do implante. Os dados obtidos foram submetidos a análise de variância (ANOVA) e teste de Tukey (p<0,05). Os resultados do estudo demonstraram que a utilização dos três tipos de cilindro não alteram o resultado final de distribuição de tensão no intermediário após o carregamento. Adicionalmente as coroas confeccionadas com cilindro de CoCr usinado, tiveram o comportamento mais estável com relação a uniformidade na distribuição das tensões no intermediário e no osso simulado quando comparados com os outros dois grupos (cilindros de Au e Calcinável). / The metal-ceramic crowns implant-supported are widely used in the rehabilitation of edentulous patients. The mechanical behavior of these crowns is very important to understand the process of transmission of masticatory forces and their reactions at abutment and peri-implant bone structure, but these processes are not fully understood yet. The aim of this study was to verify the deformation in the abutment and peri-implant bone in implant-supported single crowns after load application. Was used a master model of polyurethane simulating the jawbone with an external hexagon implant of 3.75 mm of diameter and 13 mm of length, which was fixed a multi-unit abutment (Nobel Biocare, Göteborg, Sweden). The study presented three groups with four samples each, divided according to type of cylinder and casting alloy (gold cylinder smelting with the PdAg alloy, CoCr cylinder machined cast-on with the league NiCoCr, cast acrylic cylinder with alloy NiCoCr). Each sample was subjected to five times the application of vertical load of 300N on a universal testing machine. The force was applied in the center of the occlusal surface of each crown. Readings were taken of the deformations generated in the abutment and polyurethane with the use of strain gages which were glued on three sides of the abutment and mesial, buccal, lingual and distal surfaces of simulated bone around the implant. The datas were submitted to ANOVA and Tukey test (p<0.05). The study results demonstrated that the use of three types of cylinder does not change the final result of stress distribution in the intermediate after axial loading. Additionally crowns made with machined cylinder CoCr, had more stable with respect to uniform distribution of stresses in the intermediate and the simulated bone when compared with the other two groups (Au and burnout cylinders). Biomecânica Coroa unitária implantossuportada Extensômetro Implante dentário Biomechanics Dental implant Single unit implant-supported crown Strain gage
13	Involvement of dorsomedial prefrontal projections pathways to the basolateral amygdala and ventrolateral periaqueductal grey matter in conditioned fear expression / Implication des voies de projection du cortex préfrontal dorso-médian vers l’amygdale et la substance grise periaqueducale dans l’expression des réponses conditionnées de peur Chaudun, Fabrice 27 September 2016 (has links) A l’heure actuelle, une des principales questions des neurosciences comportementales est de comprendre les bases neurales des apprentissages et de comprendre comment des modifications au sein de circuits neuronaux spécifiques contrôlent les changements comportementaux liés à une expérience particulière. De nombreuses études ont récemment mis en évidence le rôle important des circuits neuronaux dans les phénomènes d’apprentissages associatifs, et notamment dans la régulation des comportements de peur. Cependant, leurs caractéristiques anatomiques et fonctionnelles restent encore largement inconnues. L’une des principales fonctions des circuits neuronaux est leur capacité à adapter le comportement en fonction de la nature des informations internes ou environnementales disponibles. Malgré de nombreux progrès réalisés sur la compréhension des substrats et mécanismes neuronaux sous tendant le conditionnement de peur au sein de structures telles que l'amygdale (AMG), le cortex préfrontal dorso-médian (dmPFC) et la substance grise periaqueducale (PAG), les mécanismes neuronaux gouvernant les interactions inter-structure ainsi que le contrôle local de ces différents circuits neuronaux restent encore largement inconnus. Dans ce contexte, ce travail de thèse a eupour objectifs principaux, d’évaluer la contribution des voies de projections dmPFC-BLA et dmPFC-vlPAG dans la régulation des comportements de peur, et, d’identifier les mécanismes neuronaux sous-jacent contrôlant l'expression de la peur. Afin de répondre à ces questions, nous avons utilisé conjointement des enregistrements électrophysiologiques unitaires et de potentiels de champs couplés à des approches optogénétiques au cours de l’expression de la peur conditionnée. Nous avons pu mettre en évidence un nouveau mécanisme neuronal basé sur une oscillation cérébrale à 4 Hz entre le dmPFC et le BLA impliqué dans la synchronisation neuronale des neurones de ces deux structures nécessaire à l’expression de la peur. Nous avons aussi démontré que le dmPFC via ses projections sur le vlPAG contrôle directement l’expression de la peur. Ensemble, nos données contribuent à une meilleure compréhension des circuits neuronaux ainsi que des mécanismes du comportement de peur qui dans le futur pourront aider à une amélioration thérapeutique des troubles anxieux. / A central endeavour of modern neuroscience is to understand the neural basis of learningand how the selection of dedicated circuits modulates experience-dependent changes inbehaviour. Decades of research allowed a global understanding of the computations occurring inhard-wired networks during associative learning, in particular fear behaviour. However, brainfunctions are not only derived from hard-wired circuits, but also depend on modulation of circuitfunction. It is therefore realistic to consider that brain areas contain multiple potential circuitswhich selection is based on environmental context and internal state. Whereas the role of entirebrain areas such as the amygdala (AMG), the dorsal medial prefrontal cortex (dmPFC) or theperiaqueductal grey matter (PAG) in fear behaviour is reasonably well understood at themolecular and synaptic levels, there is a big gap in our knowledge of how fear behaviour iscontrolled at the level of defined circuits within these brain areas. More particularly, whereas thedmPFC densely project to both the basolateral amygdala (BLA) and PAG, the contributions ofthese two projections pathway during fear behaviour are largely unknown. Beside theinvolvement of these neuronal pathways in the transmission of fear related-information, theneuronal mechanisms involved in the encoding of fear behaviour within these pathways are alsovirtually unknown. In this context, the present thesis work had two main objectives. First,evaluate the contribution of the dmPFC-BLA and dmPFC-vlPAG pathways in the regulation offear behaviour, and second, identify the neuronal mechanisms controlling fear expression in thesecircuits. To achieve these goals, we used a combination of single unit and local field potentialrecordings coupled to optogenetic approaches in behaving animals submitted to a discriminativefear conditioning paradigm. Our results first, identified a novel neuronal mechanism of fear expression based on the development of 4 H oscillations within dmPFC-BLA circuits thatdetermine the dynamics of freezing behaviour and allows the long-range synchronization offiring activities to drive fear behaviour. Secondly, our results identified the precise circuitry at thelevel of the dmPFC and vlPAG that causally regulate fear behaviour. Together these data provideimportant insights into the neuronal circuits and mechanisms of fear behaviour. Ultimately thesefindings will eventually lead to a refinement of actual therapeutic strategies for pathological conditions such as anxiety disorders. Electrophysiologie unitaire in vivo Comportement auditif de peur Optogénétique Oscillation cérébrale In vivo single unit recording Auditory fear conditioning behaviour Optogenetic Cerebral oscillation
14	Central sound encoding in the inferior colliculus of mouse models for human auditory synaptopathy and neuropathy Pelgrim, Maike 04 December 2018 (has links) No description available. 570 Otoferlin Inferior Colliculus Single Unit Recording Auditory Neuropathy Ribbon Synapse Hair Cell Hearing Loss Bassoon Spectrin Biologie (PPN619462639)
15	Crossing the scales Telenczuk, Bartosz 14 November 2011 (has links) Während seiner normalen Funktion generiert das Gehirn starke elektrische Signale, die technisch gemessen werden können. Das schon seit über einem Jahrhundert bekannte Phänomen ermöglicht es die Signalverarbeitung im Gehirn räumlich und zeitlich zu beobachten. Heute versteht man die zellulären Prozesse die zur Generierung der elektrischen Signale in einzelnen Neuronen führen. Jedoch rekrutieren die meisten neuronalen Ereignisse große Populationen von Zellen, dessen Aktivität zeitlich und räumlich koordiniert ist. Diese Koordinierung führt dazu, dass ihre elektrische Aktivität auch weit von den Quellen gemessen werden kann, sodass die Beobachtung des Gehirns auch nicht invasiv auf der Schädeloberfläche mittels dem sogenannten Elektroenzephalogramm (EEG) möglich ist. Der zeitliche Verlauf des Signals hängt nicht nur von den Eigenschaften einzelner Zellen ab sondern auch von ihrer Wechselwirkung mit anderen Neuronen, die oft komplex oder gar nicht bekannt ist. Diese Komplexität verhindert die Auswertung der gemessen Signale im Bezug auf die Anzahl von aktiven Neuronen, die Art der Antwort (Inhibition, Exzitation), die Synchronisationsstärke und den Einfluss anderer aktiver Prozesse (wie zum Beispiel: Lernen, Aufmerksamkeit usw.). In dieser Arbeit werden die Zusammenhänge zwischen diesen mikroskopischen Parametern (einzelne Neurone) und ihrer makroskopischen Wirkung (EEG) experimentell, datenanalytisch und theoretisch untersucht. / During its normal function the brain generates strong and measurable electric signals. This phenomenon, which has been known for more than a century, makes it possible to investigate the signal processing in the brain. Nowadays the cellular processes taking part in the generation of the electric signals are well understood. However, most of the neuronal events recruit large populations of cells, whose activities are coordinated spatially and temporally. This coordination allows for summation of activities generated by many neurons leading to extracellular electric signals that can be recorded non-invasively from the scalp by means of electroencephalography (EEG). The temporal structure of the EEG signal does not depend only on the properties of single neurons, but also on their interactions that may be very complex. The complexity hinders the evaluation of the recoded signal with respect to the number of active neurons, the type of response, the degree of synchronisation and the contribution of other processes (such as, learning and attention). In the thesis, the relations between the microscopic (single-neuron) and their macroscopic (EEG) properties will be investigated by means of experimental, data-analytic and theoretical approaches. EEG Einzelzellen Spike-Mustern Bursts evozierte Potenziale EEG single-unit activity spike patterns bursts evoked responses 570 Biowissenschaften, Biologie 32 Biologie YG 2400 ddc:570
16	Codage des sons dans le nerf auditif en milieu bruyant : taux de décharge versus information temporel / Sound coding in the auditory nerve : rate vs timing Huet, Antoine 14 December 2016 (has links) Contexte : Les difficultés de compréhension de la parole dans le bruit représente la principale plainte des personnes malentendantes. Cependant, peu d’études se sont intéressées aux mécanismes d’encodage des sons en environnement bruyant. Ce faisant, nos travaux ont portés sur les stratégies d’encodage des sons dans le nerf auditif dans environnements calme et bruyant en combinant des techniques électrophysiologiques et comportementales chez la gerbille.Matériel et méthodes : L’enregistrement unitaire de fibres du nerf auditif a été réalisé en réponse à des bouffées tonales présentées dans un environnement silencieux ou en présence d’une bruit de fond continu large bande. Les seuils audiométriques comportementaux ont été mesurés dans les mêmes conditions acoustiques, par une approche basée sur l’inhibition du reflex acoustique de sursaut.Résultats : Les données unitaires montrent que la cochlée utilise 2 stratégies d’encodage complémentaires. Pour des sons de basse fréquence (<3,6 kHz), la réponse en verrouillage de phase des fibres de l’apex assure un encodage fiable et robuste du seuil auditif. Pour des sons plus aigus (>3,6 kHz), la cochlée utilise une stratégie basée sur le taux de décharge ce qui requiert une plus grande diversité fonctionnelle de fibres dans la partie basale de la cochlée. Les seuils auditifs comportementaux obtenus dans les mêmes conditions de bruit se superposent parfaitement au seuil d’activation des fibres validant ainsi les résultats unitaires.Conclusion : Ce travail met en évidence le rôle capital de l’encodage en verrouillage de phase chez des espèces qui vocalisent au-dessous de 3 kHz, particulièrement en environnement bruyant. Par contre, l’encodage de fréquences plus aiguës repose sur le taux de décharge. Ce résultat met l’accent sur la difficulté d’extrapoler des résultats obtenus sur des modèles murins qui communique dans les hautes fréquences (> à 4 kHz) à l’homme dont le langage se situe entre 0,3 et 3 kHz. / Background: While hearing problems in noisy environments are the main complaints of hearing-impaired people, only few studies focused on cochlear encoding mechanisms in such environments. By combining electrophysiological experiments with behavioral ones, we studied the sound encoding strategies used by the cochlea in a noisy background.Material and methods: Single unit recordings of gerbil auditory nerve were performed in response to tone bursts, presented at characteristic frequencies, in a quiet environment and in the presence of a continuous broadband noise. The behavioral audiogram was measured in the same conditions, with a method based on the inhibition of the acoustic startle response.Results: Single unit data shows that the cochlea used 2 complementary strategies to encode sound. For low frequency sounds (<3.6 kHz), the phase-locked response from the apical fibers ensure a reliable and robust encoding of the auditory threshold. For high frequencies sounds, basal fibers use a strategy based on the discharge rate, which requires a larger heterogeneity of fibers at the base of the cochlea. The behavioral audiogram measured in the same noise condition overlaps perfectly with the fibers’ threshold. This result validates our predictions made from the single fiber recordings.Conclusion: This work highlights the major role of the phase locked neuronal response for animal species that vocalize below 3 kHz (as human), especially in noisy backgrounds. At the opposite, high frequency sound encoding is based on rate information. This result emphasizes the difficulty to transpose results from murine model which communicate in the high frequencies (> 4 kHz) to human whose language is between 0.3 and 3 kHz. Nerf auditif Verrouillage de phase Enregistrement unitaire Encodage neuronal Bruit Auditory nerve Phase locking Single unit recording Neural encoding Background noise 612
17	METHOD OF THIN FLEXIBLE MICROELECTRODE INSERTION IN DEEP BRAIN REGION FOR CHRONIC NEURAL RECORDING Muhammad Abdullah Arafat (8082824) 05 December 2019 (has links) Reliable chronic neural recording from focal deep brain structures is impeded by insertion injury and foreign body response, the magnitude of which is correlated with the mechanical mismatch between the electrode and tissue. Thin and flexible neural electrodes cause less glial scarring and record longer than stiff electrodes. However, the insertion of flexible microelectrodes in the brain has been a challenge. A novel insertion method is proposed, and demonstrated, for precise targeting deep brain structures using flexible micro-wire electrodes. A novel electrode guiding system is designed based on the principles governing the buckling strength of electrodes. The proposed guide significantly increases the critical buckling force of the microelectrode. The electrode insertion mechanism involves spinning of the electrode during insertion. The spinning electrode is slowly inserted in the brain through the electrode guide. The electrode guide does not penetrate into cortex. The electrode is inserted in the brain without stiffening it by coating with foreign material or by attaching a rigid support and hence the method is less invasive. Based on two new mechanisms, namely spinning and guided insertion, it is possible to insert ultra-thin micro-wire flexible electrodes in rodent brains without buckling. I have demonstrated successful insertion of 25 µm platinum micro-wire electrodes about 10 mm deep in rat brain. A novel micro-motion compensated ultra-thin flexible platinum microelectrode has been presented for chronic single unit recording. Since manual insertion of the proposed microelectrode is not possible, I have developed a microelectrode insertion device based on the proposed method. A low power low noise 16 channel programmable neural amplifier ASIC has been designed and used to record the neural spikes. The ability to record neural activity during insertion is a unique feature of the developed inserter. In vivo implantation process of the microelectrode has been demonstrated. Microelectrodes were inserted in the Botzinger complex of rat and long term respiratory related neural activity was recorded from live rats. The developed microelectrode has also been used to study brain activity during seizures. In-vivo experimental results show that the proposed method and the prototype insertion system can be used to implant flexible microelectrode in deep brain structures of rodent for brain studies. Neural electrodes microelectrode fabrication electrode design electrode insertion Neural amplifier Single unit recording Neural Activity
18	Disruptions to human speed perception induced by motion adaptation and transcranial magnetic stimulation. Burton, Mark P., McKeefry, Declan J., Barrett, Brendan T., Vakrou, Chara, Morland, A.B. 11 1900 (has links) No / To investigate the underlying nature of the effects of transcranial magnetic stimulation (TMS) on speed perception, we applied repetitive TMS (rTMS) to human V5/MT+ following adaptation to either fast- (20 deg/s) or slow (4 deg/s)-moving grating stimuli. The adapting stimuli induced changes in the perceived speed of a standard reference stimulus moving at 10 deg/s. In the absence of rTMS, adaptation to the slower stimulus led to an increase in perceived speed of the reference, whilst adaptation to the faster stimulus produced a reduction in perceived speed. These induced changes in speed perception can be modelled by a ratio-taking operation of the outputs of two temporally tuned mechanisms that decay exponentially over time. When rTMS was applied to V5/MT+ following adaptation, the perceived speed of the reference stimulus was reduced, irrespective of whether adaptation had been to the faster- or slower-moving stimulus. The fact that rTMS after adaptation always reduces perceived speed, independent of which temporal mechanism has undergone adaptation, suggests that rTMS does not selectively facilitate activity of adapted neurons but instead leads to suppression of neural function. The results highlight the fact that potentially different effects are generated by TMS on adapted neuronal populations depending upon whether or not they are responding to visual stimuli. / BBSRC Motor cortex excitability Temporal visual area Single-unit activity Neural populations Transparent motion State-dependency Parietal cortex Perceived speed MT neurons
19	Les comportements orientés vers un but : implication de l'hippocampe et du cortex préfrontal chez le rat Saint Blanquat, Paul de 20 December 2011 (has links) Les comportements orientés vers un but sont complexes et font appel à un grand nombre de processus cérébraux. Le cortex préfrontal médian (mPFC) apparaît comme une structure clef dans la réalisation de ces comportements de par son rôle dans la planification. De plus, il existe au sein du mPFC des cellules signalant les lieux à forte valeur motivationnelle. L’activité de ces neurones pourrait être essentielle à la mise en place d’un comportement spatial dirigé vers un but. S’orienter vers un but nécessite aussi la construction d’une représentation stable de l’environnement, qui repose sur l’activité de l’hippocampe (HPC). Néanmoins, peu de travaux ont analysé le rôle respectif de ces deux structures, et leurs interactions, lors de l’acquisition et de la consolidation d’une stratégie comportementale orientée vers un but. L’objectif des recherches réalisées au cours de ma thèse est donc d’étudier l’implication de l’hippocampe et du cortex préfrontal médian du rat dans ce processus. Notre première étude a montré l’existence d’un codage prospectif au sein des neurones du mPFC durant la réalisation d’une tâche de mémoire de travail.L’activité des neurones signale à la fois, la séquence temporelle comportementale, et l’anticipation de la récompense, et jouerait ainsi un rôle dans les fonctions exécutives. Dans la deuxième étude, nous nous sommes intéressés aux structures cérébrales impliquées dans la mise à jour de la valence du but ainsi que dans sa rétention à long terme. Nos résultats ont montré que l’inactivation de l’hippocampe intermédiaire provoque des déficits dans le traitement à court terme d’un changement de valence. En revanche, l’inactivation du mPFC empêche le stockage à long terme de ce changement. L’activité de ces deux structures serait donc essentielle pour effectuer une mise à jour en temps réel de la valence d’un but et pour sa consolidation en mémoire à long terme. Leur interaction permettrait d’adapter rapidement et de façon durable la stratégie comportementale de l’animal face aux changements de l’environnement. / Goal-directed behaviors are complex and involve a variety of cognitive processes. Medial prefrontal cortex (mPFC) plays a key role in behavioral planning. More over, cells in the rat mPFC show specific firing modulations at location with a high motivational value. Such neuronal activity could be essential for the setting up installation of a goal-directed behavior. Further more, navigating to a spatial goal requires the building of a stable presentation of the environment which is hippocampus-dependent. So far however, only few studies have addressed the respective role of these two structures, and their interaction, during the acquisition and the consolidation of a goal directed-behavior. The work conducted during my PhD thesis aimed at studying the role of hippocampus and prefrontal cortex in this process. In a first study,we showed the existence of a prospective coding by mPFC neurons when the rat performs a working memory task. Neuronal activity signals both, the temporal sequence of the behavior, and the prediction of reward. These neurons would play a role inexecutive functions. In a second study, we focused on cerebral structures involved in the updating of the value of a goal as well as in its long-term retention. Our results showed that the inactivation of the intermediate hippocampus causes deficit in the short-term processing of a change in the goal value. On the other hand, the inactivation of the mPFC prevents long-term consolidation of this change. Integrity of this two structures would therefore be essential to perform an on-line updating of the goal value and for its long-term consolidation. Their interaction would be necessary to rapidly adapt, and in a lasting manner, the behavioral strategy of the animal when it faces an environmental change. Cortex préfrontal Hippocampe dorsal Hippocampe intermédiaire Mémoire de travail Valence du but Comportements orientés vers un but Enregistrement unitaire Inactivation cérébrale Rat Prefrontal cortex Dorsal hippocampus Intermediate hippocampus Working memory Goal value update Goal-directed behavior Single unit recording Brain inactivation Rat
20	Compléxité de l'intégration multisensorielle chez le primate humain et non-humain : du comportement à l'électrophysiologie corticale et sous-corticale / Complexity of multisensory integration in human and non human primates : from behavior to cortical and sub-cortical electrophysiology Juan, Cécile 03 July 2017 (has links) Dans notre environnement, nous sommes constamment exposés à de multiples stimuli sensoriels que notre cerveau doit analyser. Afin d'interagir avec le monde qui nous entoure, nous devons intégrer ces différentes sources d'informations sensorielles. L'étude des processus d'intégration multisensorielle est essentielle pour comprendre comment le cerveau intègre les éléments séparés d'un objet défini par plusieurs composantes sensorielles pour former un percept unifié. Il est maintenant couramment admis que la présentation conjointe de plusieurs informations sensorielles de modalités différentes d'un même stimulus peut faciliter la perception. Cette facilitation multisensorielle semble être soumise à des règles particulières puisque certains facteurs l'influencent. Parmi eux, nous avons étudié, dans notre première étude, l'impact de trois facteurs que sont la saillance, la congruence sémantique et le changement de modalité sur les performances de détection de stimuli naturels chez l'homme et le singe. L'utilisation de stimuli naturels nous a permis de mettre en lumière l'influence des paramètres physiques des stimuli sur l'intégration multisensorielle. De plus, nous avons montré que les effets de ces facteurs sur des stimuli naturels diffèrent de ceux retrouvés avec des stimuli simples. Ces résultats convergent vers des effets multifactoriels sur la facilitation multisensorielle dont la force, les interdépendances et l'ordre varieraient en fonction de la tâche comportementale et de ce fait, de la charge cognitive. D'un point de vue anatomique et plus précisément au niveau cortical, les processus d'intégration multisensorielle paraissaient être jusqu'à récemment une caractéristique que seules possédaient les aires associatives situées au sommet de la hiérarchie du traitement de l'information. On sait maintenant que des aires corticales de bas niveau, pensées jusque-là comme étant unisensorielles, sont impliquées dans les processus multisensoriels, soulevant ainsi la question des aires sous-corticales. Des études anatomiques ont mis en évidence l'existence de noyaux thalamiques qui, par leurs connexions, pourraient permettre un transfert rapide et même une intégration des informations sensorielles. Cette nouvelle littérature témoigne de la grande complexité des réseaux cérébraux de la multisensorialité. Dans deux études électrophysiologiques chez le singe, nous avons examiné les propriétés multisensorielles de deux structures, le gyrus cingulaire postérieur et le pulvinar médian, qui n'avaient jamais été explorées auparavant dans un contexte multisensoriel. Nous avons montré que ces structures sont non seulement multisensorielles mais également intégratives et qu'elles pourraient appartenir à un même système fonctionnel. Ces travaux de thèse ont apporté des éléments supplémentaires quant à notre compréhension des processus d'intégration multisensorielle au niveau comportemental et des réseaux cérébraux sous-jacents et particulièrement ceux liés à l'intégration de stimuli naturels. / In our environment, we are constantly exposed to multiple sensory stimuli that our brain has to analyze. To interact with the surrounding world, we have to integrate these different sources of sensory information. The study of the processes of multisensory integration are essential in understanding how our brain integrates the individual parts of an object defined by several sensory components to arrive at a unified percept. It is now widely accepted that the concurrent presentation of several sensory information about the same stimulus in different modalities can facilitate its perception. This multisensory facilitation seems to be subjected to specific rules since some factors influence it. Amongst them, we have studied, in our first experiment, the impact of three factors, namely saliency, semantic congruency and modality switch, on the detection of natural stimuli in humans and monkeys. Using natural stimuli enabled us to highlight the influence of the physical parameters of stimuli on multisensory integration. Moreover, we showed that the effect of these factors on natural stimuli are different from those found with simple stimuli. These results point toward multifactorial effects on multisensory facilitation, of which the force, the interdependency and the order would vary as a function of the behavioral task, and, thus as a function of the cognitive load. From an anatomical point of view and more specifically at the cortical level, the integration mechanism appeared to be, until recently, a characteristic possessed only by associative areas at the top of the hierarchy of information processing. We now know that low level cortical areas, thought up to then to be only unisensory, are implicated in multisensory processes, thus raising the question about subcortical areas. Anatomical studies have shown the existence of thalamic nuclei which, through their connectivity, could allow for a rapid transfer and even an integration of sensory information. This new literature demonstrates the high complexity of the multisensory cerebral networks. In two electrophysiological studies in the monkey, we examined the multisensory properties of two structures, the posterior cingulate gyrus and the median pulvinar, which had never been explored before in a multisensory context. We not only showed that these structures are multisensory, but also integrative and that they could be part of the same functional network. This thesis has brought additional elements towards a better understanding of multisensory integration processes at the behavioral level and about the underlying brain networks, in particular those linked with the integration of natural stimuli. Intégration multisensorielle Vision et audition Comportement Stimuli naturels Pulvinar médian Gyrus cingulaire postérieur Primates humains et non humains Multisensory integration Vision and audition Natural stimuli Median pulvinar Posterior cingulate gyrus Human and non-human primates

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