Global ETD Search

111	Implications fonctionnelles du collicule inférieur chez l'humain Champoux, François 12 1900 (has links) Le rôle du collicule inférieur dans les divers processus auditif demeure à ce jour méconnu chez l’humain. À l’aide d’évaluations comportementales et électrophysiologiques, le but des études consiste à examiner l’intégrité fonctionnelle du système nerveux auditif chez une personne ayant une lésion unilatérale du collicule inférieur. Les résultats de ces études suggèrent que le collicule inférieur n’est pas impliqué dans la détection de sons purs, la reconnaissance de la parole dans le silence et l’interaction binaurale. Cependant, ces données suggèrent que le collicule inférieur est impliqué dans la reconnaissance de mots dans le bruit présentés monauralement, la discrimination de la fréquence, la reconnaissance de la durée, la séparation binaurale, l’intégration binaurale, la localisation de sources sonores et, finalement, l’intégration multisensorielle de la parole. / The role of the inferior colliculus in human auditory processing is still poorly understood. We report the results obtained from a 12-year-old boy who suffered a very circumscribed lesion at the level of the right inferior colliculus without additional neurological damage. The child underwent an extensive battery of psychophysical and electrophysiological tests. Results revealed that tonal detection thresholds, speech recognition in the absence of competing auditory input and performance on binaural interaction tasks were unimpaired. However, the pattern of results suggests that auditory functions such as the recognition of low-redundancy speech presented monaurally, frequency discrimination, the recognition of tone-duration patterns, binaural separation, binaural integration, sound-source localization in space as well as mutlisensory integration depend on the integrity of the bilateral auditory pathways at the level of the inferior colliculus. collicule inférieur lésion unilatérale évaluation électrophysiologique processus auditif intégration multisensorielle évaluation comportementale Inferior colliculus unilateral lesion electrophysiological assessment auditory processing multisensory integration psychophysical assessments
112	Développement physiologique des voies visuelles chez le rat normal et chez celui ayant subi des convulsions hyperthermiques Prévost, François 01 1900 (has links) Les neurones des couches superficielles du collicule supérieur et du cortex visuel primaire du rat adulte sont sensibles à de basses fréquences spatiales de haut contraste défilant à des vitesses élevées. Entre les jours post-nataux 27-30 et l’âge adulte, les fréquences temporelles optimales des neurones du cortex visuel primaire augmentent, tandis que leurs seuils de contraste diminuent. Cependant, les fréquences spatiales optimales, les valeurs de résolution spatiale et les bandes passantes spatiales de ces neurones sont, dès l’ouverture des paupières, similaires à celles observées chez le rat adulte. Ces profils de réponse neuronale suggèrent que les projections rétino-colliculaires et rétino-géniculo-corticales sont essentiellement issues de neurones ganglionnaires rétinofuges magnocellulaires et koniocellulaires. Les neurones du cortex visuel primaire du rat ayant subi des convulsions hyperthermiques présentent, dès l’ouverture des paupières, de basses fréquences spatiales optimales, de larges bandes passantes directionnelles et temporelles ainsi que des seuils de contraste élevés par rapport aux neurones du rat normal. À l’âge adulte, de basses fréquences temporelles optimales et de larges bandes passantes spatiales sont également observées chez le rat ayant subi des convulsions hyperthermiques. L’altération des profils de réponse des neurones du cortex visuel primaire du rat ayant subi de convulsions hyperthermiques suggère un déséquilibre entre les mécanismes neuronaux excitateurs et inhibiteurs de cette aire corticale. Ces résultats suggèrent également qu’un épisode unique de convulsions fébriles infantiles suffit à altérer le développement des propriétés spatio-temporelles des champs récepteurs des neurones du cortex visuel primaire. / Neurons in superficial layers of the rat superior colliculus and primary visual cortex are sensitive to highly contrasted low spatial frequencies drifting at fast speeds. Between post-natal days 27-30 and adulthood, the optimal temporal frequencies of neurons in the primary visual cortex increase, whereas their contrast thresholds decrease. However, the optimal spatial frequencies, spatial resolution values and spatial bandwidths of these neurons are, soon after eyelid opening, similar to those observed in the adult rat. These neuronal response profiles suggest that the retino-collicular and retino-geniculo-cortical projections are mainly innervated by magnocellular and koniocellular retinal ganglion cells. Neurons in the primary visual cortex of rats having experienced hyperthermic seizures are, soon after eyelid opening, sensitive to low optimal spatial frequencies and show broad directional and temporal bandwidths, as well as elevated contrast thresholds when compared to neurons of normal rats. At adulthood, low optimal temporal frequencies and broad spatial bandwidths are also observed in rats having experienced hyperthermic seizures. The alteration of response profiles of neurons in the primary visual cortex of rats having experienced hyperthermic seizures suggests an unbalance between excitatory and inhibitory mechanisms in this cortical structure. These results also suggest that a single episode of febrile seizures could be sufficient to impede the development of the spatio-temporal receptive field properties of neurons in the primary visual cortex. Vision Rat Collicule supérieur Cortex visuel primaire Développement Convulsions fébriles Fréquence spatiale Fréquence temporelle Direction Contraste Superior colliculus Primary visual cortex Development Febrile seizures Spatial frequency Temporal frequency Contrast
113	δ-Protocadherin Function: From Molecular Adhesion Properties to Brain Circuitry Cooper, Sharon Rose 01 September 2017 (has links) No description available. Biochemistry Biology Biomedical Research Developmental Biology Molecular Biology Neurosciences Biophysics Cellular Biology epilepsy EFMR Pcdh19 protocadherins cadherins calcium binding adhesion neurons neural circuitry neural development brain development neuroscience biophysics structural biology zebrafish superior colliculus optic tectum TALEN
114	Altered processing of communication signals in the subcortical auditory sensory pathway in autism Schelinski, Stefanie, Tabas, Alejandro, Kriegstein, Katharina von 04 June 2024 (has links) Autism spectrum disorder (ASD) is characterised by social communication difficulties. These difficulties have been mainly explained by cognitive, motivational, and emotional alterations in ASD. The communication difficulties could, however, also be associated with altered sensory processing of communication signals. Here, we assessed the functional integrity of auditory sensory pathway nuclei in ASD in three independent functional magnetic resonance imaging experiments. We focused on two aspects of auditory communication that are impaired in ASD: voice identity perception, and recognising speech-in-noise. We found reduced processing in adults with ASD as compared to typically developed control groups (pairwise matched on sex, age, and full-scale IQ) in the central midbrain structure of the auditory pathway (inferior colliculus [IC]). The right IC responded less in the ASD as compared to the control group for voice identity, in contrast to speech recognition. The right IC also responded less in the ASD as compared to the control group when passively listening to vocal in contrast to non-vocal sounds. Within the control group, the left and right IC responded more when recognising speech-in-noise as compared to when recognising speech without additional noise. In the ASD group, this was only the case in the left, but not the right IC. The results show that communication signal processing in ASD is associated with reduced subcortical sensory functioning in the midbrain. The results highlight the importance of considering sensory processing alterations in explaining communication difficulties, which are at the core of ASD. info:eu-repo/classification/ddc/610 ddc:610
115	Les effets du vieillissement sur les réponses auditives et audiovisuelles des neurones du collicule supérieur chez le rat Costa, Margarida 10 1900 (has links) Le vieillissement dit "naturel", affecte physiologiquement les structures auditives périphériques; il en va de même du collicule supérieur (CS) lors du traitement des signaux auditifs et visuels. Chez le rat âgé, la sensibilité auditive périphérique diminue et l’extraction des attributs des signaux auditifs est modifiée, et ce, dès les noyaux cochléaires (premiers relais centraux de la voie auditive ascendante). De plus, les propriétés spectrales, temporelles et directionnelles des neurones auditifs du CS sont altérées lors du vieillissement. Ceci se manifeste aussi au niveau de l’organisation topographique de la sensibilité à la direction qui est abolie au sein des couches profondes du CS. Dans la même optique, l’extraction des attributs des fréquences spatiales concentriques mobiles (en présence ou en absence d’objet sonore modulé en amplitude) est altérée aussi au niveau des neurones audiovisuels du CS lors du vieillissement. En effet, au niveau spatial, chez l’animal âgé, la présence de déficits visuels est particulièrement marquée par une diminution de la sensibilité aux stimuli visuels et audiovisuels mobiles et rapides lors du déplacement de l’organisme dans son environnement. Compte tenu de l’ampleur des changements qui s’installent avec le vieillissement au niveau des structures périphériques et centrales, inévitablement, les mécanismes nerveux de la plasticité audiovisuelle de bas niveau, i.e. au niveau des neurones du CS, sont perturbés. En outre, chez l’animal âgé, le gain audiovisuel induit par l’activité des neurones du CS ne produit pas d’amélioration notable par rapport à la modalité unisensorielle. Dans l’ensemble, ces résultats montrent que le vieillissement perturbe l’activité neuronale du CS permettant de détecter les informations sensorielles pertinentes dans un environnement audiovisuel complexe. / Age-related physiological changes affect the peripheral auditory structures; this also applies to the superior colliculus (SC) auditory and visual processes. In aged rats, the peripheral hearing sensitivity decreases and at more central regions, particularly the first central node, in the ascending auditory projections, auditory processing of sounds is altered. Furthermore, at the level of the SC, spectral, temporal and directional properties of auditory neurons are also altered during aging. In addition, no systematic directional spatial arrangement is encountered among the neurons of aged rats, implying that the topographical organization of the auditory directional map is abolished in the deep layers of the SC. Moreover, in a condition where SC visual neurons are stimulated with looming concentric sinusoidal gratings (in the presence or in the absence of modulated audio signals), visual deficits in aged animals are particularly marked by a decrease in sensitivity to fast moving visual and audiovisual stimuli during self-motion. Given the links of age-related changes in the peripheral and in the central structures, inevitably, the mechanisms underlying the neuronal audiovisual plasticity, in the low-level (SC), are somehow disrupted. Specifically, in aged animals, the presence of the auditory stimulus when coupled with the visual signal did not enhance the response activity of the visual neurons. This seems to suggest that the mechanism that may serve to amplify the visual signal under weak or ambiguous and noisy conditions thus improving greater behavioral relevance of detecting rapidly approaching visual and audiovisual moving objects during self-motion is altered with aging. Overall, these results show that aging disrupts the SC neuronal activity that enables detection of relevant sensory information in a complex audiovisual environment. Vieillissement système auditif périphérique noyaux cochléaires collicule supérieur rat acuité auditive spectrale et temporelle audition directionnelle localisation sonore flux optique intégration audiovisuelle Aging peripheral auditory system cochlear nucleus superior colliculus spectral and temporal auditory acuity directional hearing sound localisation looming audiovisual integration
116	Organisation rétinotopique des structures visuelles révélée par imagerie optique cérébrale chez le rat normal Nassim, Marouane January 2008 (has links) Mémoire numérisé par la Division de la gestion de documents et des archives de l'Université de Montréal. Acuity Continuous stimulation Cortical magnification factors Fourier analysis Mayer waves Optical imagery Primary visual cortex Retinotopic organization Superior colliculus Vascular noise Acuité Analyse de Fourier Bruit vasculaire Collicule supérieure Cortex visuelle primaire Facteur cortical de grossissement Imagerie optique Ondes de Mayer Organisation rétinotopique Stimulation continue
117	Organisation rétinotopique des structures visuelles révélée par imagerie optique cérébrale chez le rat normal Nassim, Marouane January 2008 (has links) Mémoire numérisé par la Division de la gestion de documents et des archives de l'Université de Montréal Acuity Continuous stimulation Cortical magnification factors Fourier analysis Mayer waves Optical imagery Primary visual cortex Retinotopic organization Superior colliculus Vascular noise Acuité Analyse de Fourier Bruit vasculaire Collicule supérieure Cortex visuelle primaire Facteur cortical de grossissement Imagerie optique Ondes de Mayer Organisation rétinotopique Stimulation continue
118	Centros subcorticais dos sistemas visual prim?rio e ?ptico acess?rio no moc? (kerodon rupestris): caracteriza??o pela proje??o retiniana e citoarquitetura. Silva, Sebasti?o Franco da 08 September 2009 (has links) Made available in DSpace on 2014-12-17T15:36:35Z (GMT). No. of bitstreams: 1 SebastiaoFS.pdf: 2551917 bytes, checksum: 3538250a323b39c32585d41d316bcb6a (MD5) Previous issue date: 2009-09-08 / Conselho Nacional de Desenvolvimento Cient?fico e Tecnol?gico / The primary and accessory optic systems comprise two set of retinorecipient neural clusters. In this study, these visual related centers in the rock cavy were evaluated by using the retinal innervations pattern and Nissl staining cytoarchigtecture. After unilateral intraocular injection of cholera toxin B subunit and immunohistochemical reaction of coronal and sagittal sections from the diencephalon and midbrain region of rock cavy. Three subcortical centres of primary visual system were identified, superior colliculus, lateral geniculate complex and pretectal complex. The lateral geniculate complex is formed by a series of nuclei receiving direct visual information from the retina, dorsal lateral geniculate nucleus, intergeniculate leaflet and ventral lateral geniculate nucleus. The pretectal complex is formed by series of pretectal nuclei, medial pretectal nucleus, olivary pretectal nucleus, posterior pretectal nucleus, nucleus of the optic tract and anterior pretectal nucleus. In the accessory optic system, retinal terminals were observed in the dorsal terminal, lateral terminal and medial terminal nuclei as well as in the interstitial nucleus of the superior fasciculus, posterior fibres. All retinorecipient nuclei received bilateral input, with a contralateral predominance. This is the first study of this nature in the rock cavy and the results are compared with the data obtained for other species. The investigation represents a contribution to the knowledge regarding the organization of visual optic systems in relation to the biology of species. / Os sistemas visual prim?rio e ?ptico acess?rio compreendem dois conjuntos de grupamentos neurais, que recebem proje??o direta da retina. Nesse estudo, estes dois sistemas foram avaliados com rela??o a citoarquitetura e padr?o de inerva??o retiniana, usando como tra?ador neural anter?grado, a subunidade B da toxina col?rica revelada por imunoistoqu?mica para detectar este tra?ador em terminais sobre grupamentos neuronais (alvos) no enc?falo do moc? (Kerodon rupestris), um roedor nativo do Nordeste Brasileiro. Os resultados permitiram identificar os componentes do sistema visual prim?rio o complexo geniculado lateral, o complexo pr?-tectal e o col?culo superior. O complexo geniculado lateral cont?m o n?cleo geniculado lateral dorsal, o n?cleo geniculado lateral ventral e o folheto intergeniculado. Todos recebem fibras da retina com predomin?ncia contralateral, menos intensa para o folheto intergeniculado. O complexo pr?-tectal cont?m os n?cleos pr?-tectal anterior, pr?-tectal medial, pr?-tectal posterior, olivar pr?-tectal e n?cleo do trato ?ptico, os quais recebem proje??o retiniana predominantemente contralateral. Do mesmo modo, o col?culo superior recebe fibras da retina contralateral nas camadas superficiais. Tamb?m foi identificado o sistema ?ptico acess?rio completo no moc?, constitu?do pelos n?cleos terminal medial, terminal lateral, terminal dorsal e intersticial do fasc?culo superior posterior. Esses n?cleos recebem inerva??o retiniana com forte predomin?ncia contralateral, sendo que o n?cleo terminal medial, embora preserve a predomin?ncia contralateral, exibe uma evidente inerva??o ipsolateral. Complexo geniculado lateral Complexo pr?-tectal Col?culo superior Sistema ?ptico acess?rio Kerodon rupestris Toxina col?rica subunidade B. Lateral geniculate complex Pretectal complex Superior colliculus Accessory optic system Cholera toxin subunit B Kerodon rupestris.
119	Modelling the Neural Representation of Interaural Level Differences for Linked and Unlinked Bilateral Hearing Aids Cheung, Stephanie 11 1900 (has links) Sound localization is a vital aspect of hearing for safe navigation of everyday environments. It is also an important factor in speech intelligibility. This ability is facilitated by the interaural level difference (ILD) cue, which arises from binaural hearing: a sound will be more intense at the nearer ear than the farther. In a hearing-impaired listener, this binaural cue may not be available for use and localization may be diminished. While conventional, bilateral, wide dynamic range compression (WDRC) hearing aids distort the interaural level difference by independently altering sound intensities in each ear, wirelessly-linked devices have been suggested to benefit this task by matching amplification in order to preserve ILD. However, this technology has been shown to have varying degrees of success in aiding speech intelligibility and sound localization. As hearing impairment has wide-ranging adverse impacts to physical and mental health, social activity, and cognition, the task of localization improvement must be urgently addressed. Toward this end, neural modelling techniques are used to determine neural representations of ILD cues for linked and unlinked bilateral WDRC hearing aids. Findings suggest that wirelessly-linked WDRC is preferable over unlinked hearing aids or unaided, hearing-impaired listening, although parameters for optimal benefit are dependent on sound level, frequency content, and preceding sounds. / Thesis / Master of Applied Science (MASc)

Search results