Global ETD Search

31	Importance des modifications de flairage dans l’acquisition d’une tâche de discrimination olfactive : approche comportementale et corrélats neuronaux / Significance of sniffing adjustments during the acquisition of an olfactory discrimination task : behavioral approach and neural correlates Lefevre, Laura 16 December 2016 (has links) Les modalités sensorielles ont un rôle essentiel dans la collecte des informations en provenance de l’environnement. En olfaction, l’échantillonnage actif des odeurs se fait via le flairage chez le rat (2-10 Hz). Chez l’animal qui se comporte, le flairage est un acte très dynamique, il varie en particulier en fréquence et en débit. Le flairage peut être modulé par des facteurs liés au stimulus, comme les propriétés physico-chimiques des odeurs ou leur concentration, ou par des facteurs plus « internes » comme l’attention, les émotions ou la motivation. Plusieurs auteurs ont également suggéré l’importance de la fréquence de flairage dans la performance. Dans une première partie de ma thèse, j’ai voulu caractériser l’impact d’un apprentissage olfactif sur la mise en place d’un pattern de flairage adapté à la discrimination. Pour cela, j’ai utilisé un système d’enregistrement de la respiration non invasif chez le rat (pléthysmographe) pendant que l’animal effectue une tâche de discrimination olfactive à double choix. Dans une seconde partie, j’ai cherché les corrélats neuronaux de l’acquisition de ce pattern de flairage en enregistrant simultanément l’activité respiratoire et les signaux neuronaux (potentiels de champ locaux) dans des aires olfactives, motrices et limbiques chez l’animal en comportement. J’ai cherché à caractériser les activités oscillatoires dans la bande bêta (15-30 Hz) et thêta (2-10 Hz). J’ai enfin discuté dans quelle mesure celles-ci pouvaient être reliées à l’apprentissage et/ou aux variations de l’activité respiratoire / Sensory modalities actively take part in collecting relevant information from the environment. In olfaction, active sampling amounts to sniffing in rodents (2-10 Hz). In behaving animals, sniffing is highly dynamic, notably in frequency and flow rate. Sniffing can be modulated by parameters related to the odorant stimulus, such as the physicochemical properties of the molecule or its concentration. It can also vary depending on “internal” parameters such as attention, emotions or motivation. Several studies highlighted the importance of the sniffing frequency in performance. First, I looked at the impact of olfactory learning on the acquisition of a specific sniffing pattern. For that purpose, I monitored sniffing activity in a non-invasive way, using a whole-body plethysmograph, on rats performing a two-alternative choice odor discrimination task. Second, I looked for neuronal correlates of the acquisition of such a sniffing pattern by simultaneously recording sniffing and neuronal activities (local field potentials) in olfactory, motor and limbic areas in behaving animals. I sought to characterize oscillatory activities in beta (15-30 Hz) and theta (2-10 Hz) ranges. I finally discussed to what extent they were related to learning and/or sniffing modulations Flairage Rat Apprentissage olfactif Discrimination Oscillations thêta et bêta Système olfactif Réseau dynamique Respiration Sniffing Rat Olfactory learning Discrimination Theta and beta oscillations Olfactory system Dynamical network Respiration 612.86
32	New determinants of olfactory habituation Sinding, Charlotte, Valadier, François, Al-Hassani, Viviana, Feron, Gilles, Tromelin, Anne, Kontaris, Ioannis, Hummel, Thomas 27 July 2017 (has links) Habituation is a filter that optimizes the processing of information by our brain in all sensory modalities. It results in an unconscious reduced responsiveness to continuous or repetitive stimulation. In olfaction, the main question is whether habituation works the same way for any odorant or whether we habituate differently to each odorant? In particular, whether chemical, physical or perceptual cues can limit or increase habituation. To test this, the odour intensity of 32 odorants differing in physicochemical characteristics was rated by 58 participants continuously during 120s. Each odorant was delivered at a constant concentration. Results showed odorants differed significantly in habituation, highlighting the multifactoriality of habituation. Additionally habituation was predicted from 15 physico-chemical and perceptual characteristics of the odorants. The analysis highlighted the importance of trigeminality which is highly correlated to intensity and pleasantness. The vapour pressure, the molecular weight, the Odor Activity Value (OAV) and the number of double bonds mostly contributed to the modulation of habituation. Moreover, length of the carbon chain, number of conformers and hydrophobicity contributed to a lesser extent to the modulation of habituation. These results highlight new principles involved in the fundamental process of habituation, notably trigeminality and the physicochemical characteristics associated. info:eu-repo/classification/ddc/520 ddc:520
33	Olfactory threshold and odor discrimination ability in children – evaluation of a modified “Sniffin’ Sticks” test Gellrich, Janine, Stetzler, Carolin, Oleszkiewicz, Anna, Hummel, Thomas, Schriever, Valentin A. 14 November 2017 (has links) The clinical diagnostics of olfactory dysfunction in children turns out to be challenging due to low attention span, insufficient linguistic development and lack of odor experiences. Several smell tests have been developed for adults. Most of these examinations take a relatively long time and require a high level of concentration. Therefore, the aim of the current study was to evaluate an odor discrimination and olfactory threshold test using the frequently used “Sniffin’ Sticks” in children and adolescents in a simplified two-alternative-forced-choice version (2AFC) and compare it to the original three-alternative-forced-choice test (3AFC). One-hundred-twenty-one healthy participants aged between 5 and 17 years took part in this study. Within each of the two sessions participants underwent olfactory testing using the modified 2AFC as well as the standard 3AFC method. A better test-retest reliability was achieved using the original 3AFC method compared to the modified 2AFC. This was true for the odor discrimination as well as the olfactory threshold. Age had a significant influence on both tests, which should be considered when testing young children. We discuss these findings with relation to the existing norms and recommend using the 3AFC version due to a better test-retest reliability to measure olfactory function in children. info:eu-repo/classification/ddc/520 ddc:520
34	Le son de la rose : comment le cerveau traite-t-il l'interaction multisensorielle audio-olfactive ? / Smell's Melody : Brain Network Involved in Multisensory Interactions Between Sounds and Odors Gnaedinger, Amandine 25 November 2016 (has links) Comment le cerveau intègre-t-il toutes les informations sensorielles qu'il reçoit en une perception cohérente de l'environnement ? Cette intrigante et importante question en neuroscience n’est pas élucidée et a inspiré ce travail de thèse. Plus précisément, mon objectif a été d’étudier les modifications cérébrales induites par l’apprentissage d’une association entre un son et une odeur. Inhabituelle chez l’homme, hormis dans l’alimentation, cette association est pourtant fréquente chez l’animal, pour la détection de prédateurs par exemple. Mais sons et odeurs permettent surtout d'étudier les mécanismes cérébraux nécessaires à l'association entre deux sens très différents : le système auditif traite l’information en temps réel tandis que le système olfactif est lent et rythmé par la respiration. Ce travail de thèse était centré autour de la question suivante : comment le cerveau traite-t-il les interactions multisensorielles audio-olfactives ? En enregistrant l’activité de potentiel de champs local de plusieurs structures cérébrales chez des rats en train d’apprendre cette association, nous avons pu mettre en évidence un potentiel rôle des oscillations neuronales béta (15-35 Hz), dans le traitement et la mise en mémoire des différentes informations sensorielles. Ces oscillations représenteraient un lien fonctionnel entre aires cérébrales distantes, permettant l’intégration et l’association d'informations de natures très différentes. / Multisensory interactions are constantly present in our everyday life and allow a unified representation of environment. Cross modal integration is often studied in multisensory associative brain regions, but recent findings suggest that most of the brain could be multisensory. But at this time, we still don’t know how the brain deals with information from different sensory systems. In this project, we want to understand whether the establishment of neuronal oscillations can functionally connect sensory regions and take part of the multisensory integration, and how this connection is built up by learning. For this, we examine changes in the cortical network involved in the acquisition of a multisensory association between a sound and an odor in rats through the analysis of the local field potentials’ oscillations The originality of the project is to sample a large network of brain structures including primary sensory cortex (primary auditory cortex, olfactory bulb) and multimodal areas towards which converge these two senses: the piriform and perirhinal cortices. We have developed a behavioral GO/NO GO test in which the rat must combine simultaneous auditory and olfactory informations to succeed. Data and brain signals obtained in this task suggest that the power of oscillations in beta frequency band within the olfactory areas and the coherences of oscillations between these areas are modified by the multisensory learning. Interactions multisensorielles Activités oscillatoires Système olfactif Système auditif Multisensory interaction Oscillatory activity Primary and associative areas Auditory system Olfactory system
35	DISCRETE ANALYSIS OF SYNCHRONIZED OSCILLATIONS IN EXCITATORY-INHIBITORY NEURONAL NETWORKS Zeki, Mustafa 25 October 2010 (has links) No description available. Bioinformatics Mathematics Neurology oscillatory synchronized reduction discrete analysis neuronal networks neron olfactory system working memory lurching waves wave speed transiently synchronized
36	Bilateral processing of thermoreception in the olfactory system of larval Xenopus laevis / Bilaterale Verarbeitung der Temperaturwahrnehmung im olfaktorischen System von larvalen Xenopus laevis Kludt, Eugen 21 January 2010 (has links) No description available. 570 Biowissenschaften, Biologie Biology (incl. Psychology) Xenopus laevis olfaktorisches System bulbus olfactorius Temperatursensitivität Mitralzelle Xenopus laevis olfactory system bulbus olfactorius temperature sensitivity mitral cell 42.63 Tierphysiologie WXG 900 Nervensystem und Sinnesorgane
37	Olfactory ensheathing cell mediated mechanisms of neurite outgrowth and axon regeneration Witheford Richter, Miranda 11 1900 (has links) The capacity of the olfactory neuraxis to undergo neuronal replacement and axon targeting following injury, has led to scrutiny concerning the molecular and physical determinants of this growth capacity. This is because injury to the central nervous system, in contrast, leads to permanent disconnection of neurons with targets. Olfactory ensheathing cells (OECs), a specialized glial cell, may contribute to olfactory repair, and have been used to promote recovery from spinal cord injury. However, there mechanisms underlying OEC-induced regeneration are poorly appreciated. To understand these mechanisms, OECs from the lamina propria (LP OECs) or olfactory bulb (OB OECs) were transplanted into a lesion of the dorsolateral funiculus. While both cells demonstrated reparative capacities, LP and OB OECs differentially promoted spinal fibre growth; large-diameter neurofilament-positive, CGRP-positive, and serotonergic fibres sprouted in response to both LP and OB OEC transplantation, whereas substance-P and tyrosine hydroxylase-positive neurons grew more extensively following OB or LP OEC transplantation, respectively. To further understand the growth of spinal cord neurons in response to OECs, a proteomic analysis of OEC secreted factors was performed, identifying secreted protein acidic and rich in cysteines (SPARC) as a mediator of OEC-induced outgrowth in vitro. To test the contributions of SPARC to spinal cord repair after OEC transplantation, cultures of LP OECs from SPARC null and wildtype (WT) mice were transplanted into a crush of the dorsolateral funiculus. Substance P and tyrosine hydroxylase positive axon sprouting was significantly reduced in SPARC null OEC-treated animals, suggesting that individual factors may contribute to OEC-promoted regeneration. To investigate the effect of OECs on corticospinal (CST) neurons, an in vitro assay was developed using postnatal day 8 CST neurons. Coculture of CST neurons with OB OECs produced extensive axon elongation. Application of OB OEC secreted factors increased CST neurite branching, but did not increase axon elongation. In contrast, plating of CST neurons on OB OEC plasma membrane resulted in extensive axon elongation. Furthermore, the OB OEC plasma membrane could overcome CST neurite outgrowth inhibition induced by an outgrowth inhibitor. Together these findings provide insight into OEC mechanisms of neurite outgrowth and axon regeneration. Spinal cord injury Transplantation Corticospinal Axon guidance Nervous system Proteomics Cell adhesion molecules Plasma membrane Astrocytes Glia Rubrospinal Lesion Angiogenesis Tyrosine hydroxylase Regeneration Olfactory system Osteonectin In vitro
38	Olfactory ensheathing cell mediated mechanisms of neurite outgrowth and axon regeneration Witheford Richter, Miranda 11 1900 (has links) The capacity of the olfactory neuraxis to undergo neuronal replacement and axon targeting following injury, has led to scrutiny concerning the molecular and physical determinants of this growth capacity. This is because injury to the central nervous system, in contrast, leads to permanent disconnection of neurons with targets. Olfactory ensheathing cells (OECs), a specialized glial cell, may contribute to olfactory repair, and have been used to promote recovery from spinal cord injury. However, there mechanisms underlying OEC-induced regeneration are poorly appreciated. To understand these mechanisms, OECs from the lamina propria (LP OECs) or olfactory bulb (OB OECs) were transplanted into a lesion of the dorsolateral funiculus. While both cells demonstrated reparative capacities, LP and OB OECs differentially promoted spinal fibre growth; large-diameter neurofilament-positive, CGRP-positive, and serotonergic fibres sprouted in response to both LP and OB OEC transplantation, whereas substance-P and tyrosine hydroxylase-positive neurons grew more extensively following OB or LP OEC transplantation, respectively. To further understand the growth of spinal cord neurons in response to OECs, a proteomic analysis of OEC secreted factors was performed, identifying secreted protein acidic and rich in cysteines (SPARC) as a mediator of OEC-induced outgrowth in vitro. To test the contributions of SPARC to spinal cord repair after OEC transplantation, cultures of LP OECs from SPARC null and wildtype (WT) mice were transplanted into a crush of the dorsolateral funiculus. Substance P and tyrosine hydroxylase positive axon sprouting was significantly reduced in SPARC null OEC-treated animals, suggesting that individual factors may contribute to OEC-promoted regeneration. To investigate the effect of OECs on corticospinal (CST) neurons, an in vitro assay was developed using postnatal day 8 CST neurons. Coculture of CST neurons with OB OECs produced extensive axon elongation. Application of OB OEC secreted factors increased CST neurite branching, but did not increase axon elongation. In contrast, plating of CST neurons on OB OEC plasma membrane resulted in extensive axon elongation. Furthermore, the OB OEC plasma membrane could overcome CST neurite outgrowth inhibition induced by an outgrowth inhibitor. Together these findings provide insight into OEC mechanisms of neurite outgrowth and axon regeneration. Spinal cord injury Transplantation Corticospinal Axon guidance Nervous system Proteomics Cell adhesion molecules Plasma membrane Astrocytes Glia Rubrospinal Lesion Angiogenesis Tyrosine hydroxylase Regeneration Olfactory system Osteonectin In vitro
39	Accélération de la puberté par les phéromones mâles chez la souris femelle : régulation des neurones à Kisspeptine et conséquences à long terme sur le comportement sexuel / Puberty acceleration by male pheromones in female mice : régulation of kisspeptiin neurons and long-term effects on sexual behavior Jouhanneau, Mélanie 02 October 2014 (has links) Chez la souris, la puberté de la femelle est accélérée par des phéromones urinaires émises par le mâle (effet Vandenbergh). Les mécanismes neuroendocriniens sous-Jacents et les conséquences comportementales restent peu connus. Par une approche multidisciplinaire alliant immunohistochimie, chromatographie gazeuse couplée à la spectrométrie de masse et chirurgie expérimentale, mon travail de thèse montre que les neurones synthétisant la kisspeptine, un neuropeptide hypothalamique jouant un rôle essentiel dans le contrôle de la puberté, sont régulés positivement par les phéromones accélératrices de la puberté. Les neurones à kisspeptine reçoivent le signal phéromonal via le système olfactif accessoire et le transmettent aux neurones à GnRH. De plus, des analyses comportementales montrent qu’outre leur effet physiologique connu, les phéromones accélératrices de la puberté modifient à long terme le comportement sexuel de la souris femelle. En effet, la préférence de la femelle pour l’odeur du mâle s’exprime plus tôt à l’âge adulte après l’exposition péripubère aux phéromones émises par la souris mâle. / In the mouse, female puberty onset is accelerated by male urinary pheromones (Vandenbergh effect). The neuroendocrine mechanisms underlining this effect and the behavioral consequences are poorly understood. Through a multidisciplinary approach using immunohistochemistry, gas chromatography coupled to mass spectrometry and experimental surgery, my thesis research show that neurons that synthesize kisspeptin, a hypothalamic neuropeptide which plays a master role in the control of puberty onset, are positively regulated by puberty-Accelerating pheromones. Kisspeptin neurons receive pheromone signal via the accessory olfactory system and transmit it to GnRH neurons. Moreover, behavioral analyses show that besides their known physiological effect, puberty-Accelerating pheromones also have long-Term effects on sexual behavior of the female mouse. Indeed, puberty-Accelerating pheromones induce a precocious expression of male-Directed odor preference in adult female mice. Kisspeptine Puberté Axe hypothalamo-hypophyso-ovarien Attirance sexuelle Communication olfactive Phéromone Organe voméronasal Système olfactif accessoire Kisspeptin Puberty Hypothalamic-pituitary-ovarian axis Sexual attraction Olfactory communication Pheromone Vomeronasal organ Accessory olfactory system
40	Signatures neurales de la perception hédonique des odeurs chez la souris / Neural bases of odor hedonics in mice Midroit, Maellie 26 January 2018 (has links) Chez l'homme comme chez l'animal, les odeurs guident le comportement et motivent à agir. La valeur hédonique (le caractère plus ou moins plaisant) est la dimension olfactive principale et est généralement utilisée pour décider d'approcher ou fuir la source odorante. Bien que cette attractivité soit façonnée par l'expérience, certaines odeurs non-familières sont spontanément attractives ou répulsives. Le caractère plus ou moins plaisant d'une odeur serait, du moins en partie, inné. Il existerait ainsi une signature neurale spécifique de la valeur hédonique des odeurs, et c'est ce que cette thèse s'emploie à identifier.Après sélection d'odorants spontanément plus ou moins attractifs (plaisant et déplaisants respectivement), nous avons recherché les bases neurales qui sous-tendent ces comportements. Nous avons tout d'abord cartographié (expression de Zif268) puis manipulé (optogénétique) l'activité neuronale du bulbe olfactif en réponse à ces odorants, et avons révélé une signature neurale bulbaire de la valeur hédonique des odeurs le long de l'axe antéro-postérieur.Puis, afin d'analyser comment le message hédonique était interprété par les aires olfactives et associatives supérieures, nous avons développé une méthode de recalage de l'activité cérébrale dans un atlas de référence, assurant une cartographie rapide, précise et fiable de cette activité. Enfin, en combinant cette méthode à des approches comportementales, électrophysiologiques et pharmacologiques, nous avons montré un rôle du système de la récompense dans le codage de la valeur hédonique des odeurs et qu'une odeur peut être perçue comme une récompense, motivant alors les comportements d'approche et de retrait / In humans and animals, odors guide behavior and motivate action. The hedonic value (that is the pleasantness) is the main olfactory dimension and is generally used to decide to approach the odor source or move away. While this attractiveness is shaped by experience, some unfamiliar odors are spontaneously attractive or repulsive. The pleasantness of an odor would be, at least in part, innate, and suggest a specific neural signature of the hedonic value of odors. The global aim of this thesis is to decipher neuronal mechanisms underlying the hedonic value of odors.After having selected odorants with various level of attraction (pleasant and unpleasant), we have deciphered the neural bases that underlie these behaviors.We first mapped (expression of Zif268) and then manipulated (optogenetic) the neuronal activity of the olfactory bulb in response to these odors, and have revealed a bulbar neural signature of the hedonic value of odors along the antero-posterior axis.Then, in order to analyze how the hedonic information was interpreted by the higher olfactory and associative areas, we developed a method allowing the registration of brain activity in a reference atlas, that ensure a fast, accurate and reliable mapping of this activity. Finally, by combining this method with behavioral, electrophysiological and pharmacological approaches, we have shown a role of the reward system in the coding of odor hedonics and that an odor can act as a reward, thus motivating behavior, approach and withdrawal Olfaction Valeur hédonique Attractivité Imagerie cellulaire Bulbe olfactif Tubercule olfactif Système olfactif Olfaction Hedonic value Attractiveness Cellular imagery Extracellular unit recordings Olfactory bulb Olfactory tubercle Olfactory system 612.8

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