Spelling suggestions: "subject:"samma oscillations"" "subject:"gamma oscillations""
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Oscillations dans la bande de fréquence gamma dans des modèles de rongeurs pour la schizophrénie / Gamma frequency oscillations in rodent models for schizophreniaAnderson, Paul Michael 11 April 2014 (has links)
La schizophrénie est un trouble mental débilitant qui se caractérise par des perturbations de la pensée, des émotions et de la cognition. Ces processus d’intégration fonctionnelle sont généralement associés à des oscillations bioélectriques cérébrales synchrones dans la bande de fréquence gamma (30-80 Hz), lesquelles sont aussi altérées chez des patients souffrant de schizophrénie. Ce travail de thèse vise à développer des méthodes et des outils pour étudier les mécanismes neuronaux sous-tendant les altérations de ces oscillations physiopathologiques. Pour ce faire, nous avons développé des modèles de rongeurs de laboratoire pour la schizophrénie. Nous avons démontré que des modifications génétiques ou pharmacologiques conduisent à des perturbations des oscillations gamma et que des médicaments antipsychotiques peuvent les moduler. / Schizophrenia is a debilitating mental disorder that is characterised by a breakdown in normal thought processes, blunted emotional responses and a variety of cognitive difficulties. Gamma frequency (30 – 80 Hz) oscillations are associated with many processes that are disrupted in people with schizophrenia memory, perception and attention. This thesis aimed to develop methods and tools to investigate the basic mechanisms that underlie the alterations in gamma frequency brain activity that are observed in patients suffering from schizophrenia. To do this we developed a variety of experimental animal models for schizophrenia. We successfully demonstrated that both genetic and pharmacological changes lead to alterations in gamma oscillations and that antipsychotic medications can modulate them.
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Validation of the 40 Hz Auditory Steady State Response as a Pharmacodynamic Biomarker of Evoked Neural SynchronyRaza, Muhammad Ummear 01 August 2022 (has links)
Schizophrenia is a troubling and severe mental illness that is only incompletely treated by currently available drugs. New drug development is hindered by a scarcity of functionally relevant pharmacodynamic biomarkers that are translatable across preclinical and human subjects. Although psychosis is a major feature of schizophrenia, cognitive and negative symptoms determine the long-term functional outcomes for patients. Stimulus-evoked neural synchrony at gamma (~ 40 Hz) frequency plays an important role in the processing and integration of sensory information. Not surprisingly, schizophrenia patients show deficits in gamma oscillations. NMDA receptor (NMDAR) activation on fast-spiking parvalbumin-positive interneurons is deemed important for the generation of gamma oscillations. NMDA hypofunction has been proposed as an alternative hypothesis to the well-known dopamine dysregulation to explain the neurochemical abnormalities associated with schizophrenia. For this dissertation, we validated a preclinical model to pharmacologically probe NMDA-mediated gamma oscillations by further characterizing the auditory-steady state response (ASSR) in female Sprague Dawley rats. The ASSR is a measure of cortical neural synchrony evoked in response to periodic auditory stimuli. ASSR at 40 Hz is consistently disrupted in patients. First, we established the reliability of click train-evoked 40 Hz ASSR and tone-evoked gamma oscillations in 6 separate sessions, spread over a 3-week period. Then we established the sensitivity of these neural synchrony measures to acute NMDAR blockade using the high affinity NMDA channel blocker MK-801, using a repeated measures design. Next, we compared the reliability and sensitivity of the 40 Hz ASSR from two distinct recording sites. Results from this study showed that as compared to vertex, temporal recording showed a greater gamma synchrony. However, the temporal recording had poor test-retest reliability and lower sensitivity to MK-801-induced disruption. Lastly, we characterized the dose-response profiles of an NMDA co-agonist D-serine, an atypical (clozapine) and a typical (haloperidol) antipsychotic, on the 40 Hz ASSR. Results from these studies showed that only clozapine was effective in robustly augmenting 40 Hz ASSR. Furthermore, only clozapine pretreatment had partial protective effect against MK-801 induced ASSR disruption. Overall, this work establishes that vertex recorded 40 Hz ASSR is a reliable neural synchrony biomarker in female SD rats that is amenable for bidirectional pharmacodynamic modulation.
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HIGH-FREQUENCY OSCILLATIONS IN A MOUSE MODEL OF PARKINSON’S DISEASEZachrisson, Love January 2020 (has links)
Dopamine replacement therapy is the main method of treating Parkinson’s Disease (PD), however over time this treatment causes increasingly abnormal, involuntary movements. This symptom, known as Levodopa-Induced-Dyskinesia (LID) is associated with aberrant, high frequency oscillations (HFOs) in the motor cortex and basal ganglia, as demonstrated with implanted electrodes in human Parkinson’s patients as well as in a rat model of Parkinson’s Disease. However, despite efforts to determine if the same high frequency oscillations are also present during dyskinesia in the widespread 6-OHDA mouse model of Parkinson’s Disease, studies have been unable to do so. By building and implanting a 64-channel multi-electrode array into a unilateral 6-OHDA lesioned mouse, we were able to record HFOs at 80Hz and >100Hz in the motor cortex, basal ganglia and thalamus in the lesioned hemisphere during LID. We also recorded bilateral HFOs at >100Hz in the intact hemisphere. With this work we show that the same HFOs that are present in the motor cortex and basal ganglia of rats and humans are also present in mice during dyskinesia. This work will act to further validate the 6-OHDA PD-model in mice and provide opportunities to investigate new treatments for Parkinson’s Disease, dyskinesia and other neurological conditions. It will also serve as a model to study a purposed mechanism underlying the information processing in populations of neurons. / Dopaminbehandling är den mest förekommande metoden för att behandla Parkinsons sjukdom men detta orsakar dessvärre en bieffekt i form av gradvis förvärrande ofrivilliga rörelser. Detta beteendemönster kallas för Levodopa-Inducerad-Dyskinesi (LID) och med hjälp av elektrodimplantat i hjärnan, på parkinsonpatienter och djurmodeller av parkinsons, har man kunnat se att beteendet är förknippat med högfrekventa oscilleringar (HFO) av hjärnaktivitet i motorcortex och basala ganglierna. Trots försök att kartlägga om dessa högfrekventa oscilleringar också är närvarande i den populära 6-OHDA musmodellen av Parkinsons sjukdom, så har man hittills inte lyckats demonstrera detta. Genom att bygga och implantera ett elektrodimplantat med 64 kanaler i en ensidigt-leisonerad 6-OHDA musmodell av Parkinsons sjukdom så kunde vi åskådliggöra HFO i motor cortex, basala ganglierna och thalamus i den lesionerade hjärnhalvan under LID. Vi kunde också påvisa HFO som sträckte sig över till den intakta hjärnhalvan, med frekvenser över 100 Hz. Denna forskning ger stöd att 6-OHDA modellen för Parkinsons i möss är valid och ger möjlighet till nya metoder att utforska och behandla Parkinsons, dyskinesi och andra neurologiska åkommor. Studien lägger också grunden för framtida studier som ämnar att undersöka föreslagna mekanismer bakom sättet populationer av neuroner bearbetar information. / ingår i ett projekt finansierat av Vetenskapsrådet #2018-02717
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Altérations anatomo-fonctionnelles des interneurones à parvalbumine dans un modèle murin de la maladie d'Alzheimer / Anatomo-functional alterations of parvalbumin interneurons in a mouse model of Alzheimer’s diseaseCattaud, Vanessa 18 December 2018 (has links)
La maladie d'Alzheimer (MA) est une maladie neurodégénérative induisant des troubles cognitifs, et particulièrement des troubles de la mémoire. L'utilisation des souris modèles de la MA a permis de mettre en évidence des altérations de l'activité des réseaux neuronaux hippocampiques et corticaux qui seraient à l'origine des troubles cognitifs. Ainsi,les patients atteints de la MA et des souris transgéniques modèles de la pathologie ont un dysfonctionnement des interneurones exprimant la parvalbumine (PV), à l'origine de la perturbation des oscillations gamma et des troubles cognitifs. Au cours de cette thèse, nous avons fait l'hypothèse que les souris Tg2576, modèles de la MA, présentent une altération progressive des interneurones PV, et de leur matrice extracellulaire spécifique, les PNN. Cela aurait pour conséquence une altération de l'activité cérébrale (hypersynchronie, perturbation de la puissance des oscillations gamma et de leur couplage avec les oscillations thêta), qui sous-tendrait les troubles cognitifs. Ce travail a permis de montrer que les souris Tg2576 présentent effectivement des perturbations des oscillations gamma au cours d'une tâche cognitive. D'autre part, l'activation spécifique des neurones PV par optogénétique permet la génération d'oscillations gamma chez nos souris anesthésiées. Cependant nous n'avons pas pu combiner cette approche à la réalisation tâche cognitive. Nous avons par ailleurs observé une diminution du nombre de neurones PV hippocampiques et de leur PNN à un âge précoce de la pathologie, qui peut toutefois être restauré par un séjour transitoire dans un environnement enrichi. Enfin nous avons mis en évidence que les souris Tg2576 présentent des activités épileptiformes particulièrement au cours du sommeil paradoxal (SP), ainsi qu'une perturbation des oscillations gamma et de leur couplage avec les oscillations thêta dès l'âge de 1.5 mois pendant le SP. Ainsi, les travaux de cette thèse permettent de mieux caractériser l'impact de la MA sur les neurones PV et sur les phénomènes oscillatoires associés à leur fonction. / Alzheimer's disease (AD) is a neurodegenerative disorder inducing cognitive dysfunction, in particular memory loss. The use of murine models of AD have highlighted alterations of the neural activity of hippocampal and cortical networks leading to alteration of brain oscillations and spontaneous epileptic activities. Interestingly, it has also been found in AD patients and AD mice that GABAergic interneurons expressing parvalbumin (PV) are dysfunctioning, inducing a decrease in gamma oscillations associated with cognitive deficit. Thus, we hypothesized that Tg2576 mice exhibit progressive alteration of PV interneurons, and their specific extracellular matrix (PNN). These would induce aberrant cerebral activity (hypersynchrony, alteration of gamma oscillations and their association with theta oscillations) sustaining cognitive deficits. This work demonstrates that Tg2576 mice exhibit an alteration of gamma power during a cognitive task. On the other hand, the specific activation of PV neurons allows the generation of gamma oscillation in our anesthetized mice, however we haven't been able to try enhancing gamma during a cognitive task. We have also observed a decrease in the number of hippocampal PV neurons and their PNN at an early age of pathology, which can be restored by a transient stay in an enriched environment. Finally, we demonstrate that Tg2576 mice exhibit epileptiform activities, particularly during paradoxical sleep (PS), as well as an alteration of gamma oscillations and their coupling with theta oscillations during PS, as early as 1.5 months of age. Thus, these results allow to better characterize the impact of AD on PV neurons and the oscillatory phenomena associated with their function.
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Genetic Targeting and Analysis of Parvalbumin and VGLUT3 Expressing Inhibitory Interneurons / Analyse von Parvalbumin- und VGLUT3-exprimierenden Inhibitorischen NeuronenBredack, Christoph 02 May 2011 (has links)
No description available.
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