Global ETD Search

11	Deep Brain Stimulation of the Subthalamic and Entopeduncular Nuclei in an Animal Model of Tardive Dyskinesia Creed, Meaghan Claire 12 December 2013 (has links) Deep brain stimulation (DBS) has emerged as a potential intervention for treatment-resistant tardive dyskinesia (TD). Despite promising case reports, no consensus exists regarding optimal stimulation parameters, neuroanatomical target for DBS in TD, or mechanisms underlying its anti-dyskinetic effects. We used vacuous chewing movements (VCMs) in rats treated chronically with haloperidol (HAL) as a TD model to address some of these issues. We show that acute DBS applied to the subthalamic nucleus (STN) or the entopeduncular nucleus (EPN) suppresses VCMs without affecting locomotor activity. Using immediate early gene mapping with zif268 as an index of neuronal activity, we found that STN-DBS induced decreases in activity throughout the basal ganglia, whereas EPN-DBS increased activity in projection regions. While chemical inactivation of the STN or EPN with the GABAA agonist muscimol also suppressed VCMs, muscimol infusion did not mimic the changes in neuronal activity induced by DBS, suggesting that DBS is not equivalent to functional inactivation. We next examined the contribution of serotonin (5-HT) and dopamine (DA) to the anti-dyskinetic effects of DBS. Decreasing 5-HT transmission pharmacologically or with serotonergic lesions decreased VCMs. Using microdialysis and zif268 mapping, we determined that STN- but not EPN-DBS decreased 5-HT release and activity of raphe neurons. However, when the decrease in 5-HT induced by STN-DBS was prevented by pre-treating rats with fluoxetine or fenfluramine, we found that decreasing 5-HT is not necessary for the anti-dyskinetic effects of DBS. STN-DBS transiently increased striatal DA release in intact rats only, whereas EPN-DBS had no effect on DA release. Moreover, pharmacologically elevating DA levels did not suppress VCMs. Together these findings lead us to conclude that increased DA release does not contribute to the anti-dyskinetic effects of DBS. Finally, we compared depressive- and anxiety-like behaviours induced by chronic DBS of the EPN and STN, since adverse psychiatric effects of DBS have become a significant clinical concern. STN-DBS but not EPN-DBS induced depressive-like behaviour in a learned helplessness task. We established that the chronic HAL VCM model preparation may be used to explore mechanisms underlying anti-dyskinetic and psychiatric effects of DBS, and provided the first investigations into these mechanisms. deep brain stimulation subthalamic entopeduncular tardive dyskinesia haloperidol serotonin dopamine 0419
12	Efeitos do envelhecimento sobre o sistema nitrérgico dos núcleos da base em humanos / Effects of aging over nitrergic system in human basal nuclei Bruno Lopes dos Santos 22 April 2014 (has links) O óxido nítrico (NO) é uma molécula gasosa descrita recentemente, com implicações sobre uma vasta quantidade de processos fisiológicos, incluindo transmissão de sinais no sistema nervoso central (SNC). A sinalização nervosa mediada pelo NO ocorre por meios extrassinápticos, na chamada neurotransmissão por volume. Há evidências de que o NO seja um importante fator de modulação no controle da motricidade. A presença de neurônios que produzem NO já foi descrita em várias espécies, e estruturas ligadas ao controle do movimento como os núcleos da base (NNBB) contêm células nitrérgicas em quantidades variadas. Não se conhece os efeitos do processo de envelhecimento sobre a estrutura e função destes neurônios produtores de NO. O objetivo geral deste estudo foi investigar se o envelhecimento provoca alterações nos neurônios nitrérgicos presentes nos NNBB do encéfalo humano. Além disso, busca agregar mais conhecimento a aspectos morfológicos e de distribuição das células que compõem o sistema nitrérgico nos NNBB em humanos. As amostras de estriado (caudado e putâmen), globos pálidos (GP), núcleo subtalâmico (NST), substância negra (SN) e núcleo pedunculopontino (NPP) de 20 indivíduos sem doenças neurológicas e psiquiátricas foram submetidas à avaliação histológica em secções, coradas por técnicas que localizam neurônios que expressam NO, como a histoquímica para NADPH-diaforase (NADPHd) e à imunohistoquímica para sintase do NO neuronal (nNOS), e parâmetros de densidade neuronal e morfometria foram comparados entre indivíduos adultos jovens e idosos. Análises de densidade neuronal e morfometria entre subdivisões topográficas e funcionais também foram realizadas. Foi visto que o envelhecimento não provoca modificações na densidade neuronal e morfometria nitrérgica nos NNBB em humanos. Adicionalmente, o trabalho mostrou que: (I) as regiões mais posteriores do estriado se destacaram por apresentarem uma elevada densidade neuronal, associada a neurônios menores, em comparação com as regiões mais anteriores; (II) as porções do estriado ligadas ao córtex límbico apresentam maiores densidades neuronais; (III) o NST é uma região em que cerca de 90% de seus neurônios expressam NO, e suas características morfológicas sugerem que estas células coexpressem glutamato; (IV) o NPP é extensamente povoado por neurônios nitrérgicos, principalmente no nível do colículo inferior; (V) a presença de células NO-positivas é preponderante nas lâminas medulares de ambos GP, porém notamos maior concentração de células nitrérgicas no GPi; (VI) não foi detectada presença de neurônios quem contém NO na SN. Nossos resultados mostram que há uma presença maciça de neurônios que expressam NO em núcleos-chaves envolvidos com processamento motor corticobasal, como o NST, o estriado e o NPP, sugerindo que a neurotransmissão nitrérgica seja peça fundamental da fisiologia dos NNBB, portanto, com considerável potencial terapêutico nas doenças que afetam estas estruturas. / The nitric oxide (NO) is a gaseous molecule recently described, with a role on several physiologic processes, including signal transmission in central nervous system (CNS). The NO-mediated brain signaling occurs by extrasynaptic mode, called volume transmission. There are evidences supporting the NO as a major neurotransmitter involved on motor control modulation. The presence of NO neurons was described in many species, and movement-related structures, as the basal nuclei (BN), also contains variable densities of nitrergic cells. It is unknown the effect of aging over the structure and function of these NO neurons. The objective of the study is to investigate if the aging causes abnormalities on human BN nitrergic neurons. Furthermore, we aimed to explore distribution and morphologic features of these cells in BN. The samples of striatum (caudate and putamen), globus pallidum (GP), subthalamic nucleus (STN), substantia nigra (SN) and pedunculopontine nucleus (PPN) of 20 human brains from subjects without neurologic or psychiatric disases were processed for histologic analysis, stained by 2 techniques which localizes NO neurons: histochemistry for NADPH-diaphorase (NADPHd) and immunohistochemistry for neuronal NO synthase (nNOS); the neuronal density and morphometric parameters were compared between young adults and aged subjects. The neuronal density and morphometric analysis between striatal and subthalamic topographic / functional subdivisions were also performed. Our data showed that aging does not change the neuronal density or morphometric parameters of nitrergic neurons in human BN. Additionally, other results were found: (I) the most posterior regions of striatum have a higher neuronal density and smaller neurons than the most anterior regions of this nucleus; (II) the limbic cortex-associated areas of striatum have higher neuronal density than others functional subdivisions; (III) the STN is a region in which about 90% of its neurons expresses NO, and its morphologic features suggest these neurons coexpress glutamate; (IV) the PPN has a massive nitrergic neuronal density, mostly in the inferior colliculus level; (V) in GP, there is a marked presence of NO neurons in laminae medullaris, and the internal GP has more NO-positive cells than the external GP; (VI) nitrergic neurons were not detected in SN. Our results showed a remarkable presence of neurons expressing NO in nuclei essential for motor corticobasal processing (striatum, STN, PPN), suggesting that the nitrergic neurotransmission has a fundamental role in BN physiology, therefore, with great therapeutic potential in diseases involving these structures. Envelhecimento Estriado Núcleo subtalâmico Núcleos da base Óxido nítrico Aging Basal nuclei Nitric oxide Striatum Subthalamic nucleus
13	Chemogenetic Suppression of the Subthalamic Nucleus Induces Attentional Deficits and Impulsive Action in a Five-Choice Serial Reaction Time Task in Mice / 化学遺伝学的手法による視床下核の選択的神経活動抑制は注意力低下と衝動性行動を誘発する Nishioka, Tadaaki 23 September 2020 (has links) 京都大学 / 0048 / 新制・課程博士 / 博士(医学) / 甲第22745号 / 医博第4663号 / 新制\|\|医\|\|1046(附属図書館) / 京都大学大学院医学研究科医学専攻 / (主査)教授林康紀, 教授伊佐正, 教授村井俊哉 / 学位規則第4条第1項該当 / Doctor of Medical Science / Kyoto University / DFAM subthalamic nucleus attention impulsivity 5-choice serial reaction time task DREADD 490
14	Neuronenquantifizierung des menschlichen Nucleus subthalamicus und morphologische Untersuchung des Kerngebietes mittels stereologischer Mikroskopie Möbius, Dustin 07 February 2018 (has links) No description available. info:eu-repo/classification/ddc/610 ddc:610
15	Sex-differences in reported adverse side-effects caused by Deep Brain Stimulation therapy in the subthalamic nucleus Werner, Lucas January 2021 (has links) Parkinson’s disease is a common neurological disease which will progressively damagedopaminergic neurons in the brain. Later stages of the disease will result in death of theneurons. The diagnosis is often made with respect to the motor symptoms, which includetremors, bradykinesia, and rigidity. In addition to motor symptoms, non-motor symptomsappear in many patients, such as cognitive changes and mood disorders. One method used totreat Parkinson’s disease is deep brain stimulation, where electric pulses are emitted to aspecific brain area. A common target is the subthalamic nucleus, which is part of the basalganglia. By using deep brain stimulation, the dose of other medications for Parkinson’sdisease can be lowered. However, the mechanisms of deep brain stimulation are not yetentirely known, and there have been many reports of adverse side-effects caused by thismethod, including depression and other types of mood changes. Even so, information of apossible sex distribution of these side-effects is still limited. Here, a qualitative essay wasmade where 16 articles describing reported side-effects in men and women were compared. Inaddition, unpublished data from optogenetic studies on male and female mice were analysedin order to examine putative sex-differences upon experimental brain stimulation strategies.The results from the optogenetics results did not show any statistically significant sexdifferences.In contrast, by comparing the selected articles in which results of deep brainstimulation treatment in patients were reported, some differences were found. First, it seemsthat women report more depressive-like symptoms than men. Second, while men also reportdepressions, they also report more aggressive behaviour upon the treatment. A preliminaryconclusion of this essay is therefore that certain sex-differences can be observed among theadverse side-effects reported upon deep brain stimulation in Parkinson´s disease. However,since the studied material was limited, more research is required to make firmer conclusions. Deep brain stimulation subthalamic nucleus sex-differences STN-DBS Parkinson's disease Neurology Neurologi
16	The Neuroprotective Potential of Subthalamic Nucleus Deep Brain Stimulation in the 6-OHDA Rodent Model of Parkinson’s Disease Spieles-Engemann, Anne L. 20 September 2011 (has links) No description available. Neurology Parkinson's disease Deep brain stimulation Subthalamic nucleus Neuroprotection Trophic factors
17	The contribution of the subthalamic nucleus to executive functions in rat Xia, Shuang January 2014 (has links) Lesions of the subthalamic nucleus (STN) alleviate the cardinal signs of idiopathic as well as MPTP-induced Parkinson's disease in primates. For this reason, the STN is a target for clinical treatment of Parkinson's disease using deep brain stimulation. Despite its small size, the STN plays a vital role in the cortico-basal ganglia-thalamic network. However, the functional features of the STN have yet to be fully uncovered. The research presented in this thesis examines the functions of the STN by measuring behavioural changes resulting from STN lesions in rats performing executive abilities. In the first experiment, a ‘signal change' reaction time task was developed and the performance of humans and rats was compared. The main findings were that although humans and rats used different strategies in the task, the task did challenge the ability to inhibit unwanted responses. In the second and third experiments, the effects of bilateral lesions of the STN on performance of two variants of the ‘signal change' task were examined. Rats with the STN lesions were able to inhibit responses when under stimulus control, but were less able to inhibit responses that were not under stimulus control. In the final experiment, the effects of lesions of the STN on inhibitory control in a nonmotor, cognitive domain were examined. Rats with STN lesions were not impaired on reversal learning, suggesting intact inhibition of previously rewarded responses. The rats with STN lesions did show impairments in selective attention which resulted in an inability to form an attentional set. Together, these findings challenge the conventional view that the STN simply plays a global inhibitory role. Rather, the contribution of the STN to inhibitory control is more complex and neither the motor nor the cognitive effects of the lesions are easily explained simply as a failure of inhibition. 612.8
18	3D FUNCTIONAL MODELING OF DBS EFFICACY AND DEVELOPMENT OF ANALYTICAL TOOLS TO EXPLORE FUNCTIONAL STN Kumbhare, Deepak 27 April 2011 (has links) Introduction: Exploring the brain for optimal locations for deep brain stimulation (DBS) therapy is a challenging task, which can be facilitated by analysis of DBS efficacy in a large number of patients with Parkinson’s disease (PD). The Unified Parkinson's Disease Rating Scale (UPDRS) scores indicate the DBS efficacy of the corresponding stimulation location in a particular patient. The spatial distribution of these clinical scores can be used to construct a functional model which closely models the expected efficacy of stimulation in the region. Designs and Methods: In this study, different interpolation techniques were investigated that can appropriately model the DBS efficacy for Parkinson’s disease patients. These techniques are linear triangulation based interpolation, ‘roving window’ interpolation and ‘Monopolar inverse weighted distance’ (MIDW) interpolation. The MIDW interpolation technique is developed on the basis of electric field geometry of the monopolar DBS stimulation electrodes, based on the DBS model of monopolar cathodic stimulation of brain tissues. Each of these models was evaluated for their predictability, interpolation accuracy, as well as other benefits and limitations. The bootstrapping based optimization method was proposed to minimize the observational and patient variability in the collected database. A simulation study was performed to validate that the statistically optimized interpolated models were capable to produce reliable efficacy contour plots and reduced false effect due to outliers. Some additional visualization and analysis tools including a graphic user interface (GUI) were also developed for better understanding of the scenario. Results: The interpolation performance of the MIDW interpolation, the linear triangulation method and Roving window method was evaluated as interpolation error as 0.0903, 0.1219 and0.3006 respectively. Degree of prediction for the above methods was found to be 0.0822, 0.2986 and 0.0367 respectively. The simulation study demonstrate that the mean improvement in outlier handling and increased reliability after bootstrapping based optimization (performed on Linear triangulation interpolation method) is 6.192% and 12.8775% respectively. The different interpolation techniques used to model monopolar and bipolar stimulation data is found to be useful to study the corresponding efficacy distribution. A user friendly GUI (PDRP_GUI) and other utility tools are developed. Conclusion: Our investigation demonstrated that the MIDW and linear triangulation methods provided better degree of prediction, whereas the MIDW interpolation with appropriate configuration provided better interpolation accuracy. The simulation study suggests that the bootstrapping-based optimization can be used as an efficient tool to reduce outlier effects and increase interpolated reliability of the functional model of DBS efficacy. Additionally, the differential interpolation techniques used for monopolar and bipolar stimulation modeling facilitate study of overall DBS efficacy using the entire dataset. Parkinson disease Deep Brain Stimulation Subthalamic nucleus Unified Parkinson's Disease Rating Scale Functional Modeling Interpolation Bootstrapping Engineering
19	Cognição, humor e atividades funcionais em pacientes com doença de Parkinson submetidos à estimulação cerebral profunda bilateral em núcleo subtalâmico / Cognition, mood and activities of daily living assessment in patients with Parkinson\'s disease submitted to bilateral deep brain stimulation in the subthalamic nucleus Heluani, Alessandra Shenandoa 29 October 2014 (has links) Introdução: A estimulação cerebral profunda (DBS) tem sido utilizada para controle das alterações motoras nos pacientes com Doença de Parkinson (DP). O núcleo subtalâmico (NST) é o alvo preferencialmente escolhido na cirurgia. Entretanto, a técnica tem sido associada com declínio cognitivo, principalmente na fluência verbal, alterações de humor e de comportamento. Objetivo: Verificar a ocorrência de alterações na cognição, humor e atividades funcionais por meio de avaliação neuropsicológica. Métodos: Vinte e um pacientes submetidos à cirurgia no período de Maio de 2008 a Março de 2013 foram examinados por meio da avaliação neuropsicológica incluindo testes de memória, funções executivas, funções atencionais, linguagem, praxia, escala hospitalar de depressão e ansiedade (HADS) e atividades funcionais (Pfeffer), nas fases pré e pós-operatória. Os dados foram analisados utilizando SPSS versão 17.0 e os resultados foram comparados através do teste pareado t-Student ou chi-quadrado. Foi adotado um nível de significância igual ou menor que 5% (p < 0,05) para todas as análises. Resultados: Não foram encontradas diferenças significativas nas funções cognitivas, no humor e nas atividades funcionais avaliadas. Resultado marginal foi observado na memória episódica imediata verbal (p=0,051). Conclusão: DBS-NST parece não ter impacto negativo nas funções cognitivas e humor. Apesar da amostra ser relativamente pequena, a técnica parece ser segura do ponto de visto cognitivo em pacientes adequadamente selecionados / Introdution: Deep brain stimulation (DBS) has been used for control of motor disorders in patients with Parkinson\'s disease (PD). The subthalamic nucleus (STN) is the main target used in surgery. However, the technique has been associated with cognitive decline, mainly in verbal fluency, mood and behavior. Objective: To investigate the occurrence of changes in cognition, mood, and activities of daily living through neuropsychological assessment. Methods: Twenty one patients operated between May, 2008 and March, 2013 were submitted to pre- and post-operative neuropsychological testing including memory, executive functions, attentional functions, language and praxis assessment, and to hospital anxiety and depression scale (HADS) and activities of daily living (Pfeffer) scale rating as well. Data were analyzed using SPSS version 17.0 and the results were compared using the paired Student t-test or chi-square. A significance level equal or lower than 5% (p < 0.05) was adopted. Results: No significant differences were found in cognitive functions, mood and activities of daily living. Marginal results were observed in immediate verbal episodic memory (p=0.051). Conclusion: DBS - STN did not show a negative impact on cognitive function, mood and daily activities. Despite the relatively small sample, the technique appears to be safe from the cognitive point of view in appropriately selected patients Cognição Cognition Deep brain stimulation Doença de Parkinson Estimulação cerebral profunda Neuropsicologia Neuropsychologia Núcleo subtalâmico Parkinson's disease Subthalamic nucleus
20	Les récepteurs dopaminergiques D5 du noyau sous-thalamique : implication dans la physiopathologie de la maladie de Parkinson Chetrit, Jonathan 02 December 2009 (has links) L’une des caractéristiques électrophysiologiques majeure de la maladie de Parkinson est l’émergence de bouffées de potentiels d’action au niveau du noyau sous-thalamique (NST). Des travaux récents menés in vitro ont soulevé l’hypothèse de l’implication des récepteurs dopaminergiques D5 (RD5) dans la genèse de cette activité pathologique. Nous avons mis en évidence que les RD5, seuls récepteurs D1-like exprimés au niveau du NST, présentent une activité constitutive in vivo, et que celle-ci est bloquée par l’injection locale d’a-flupentixol. Le blocage de cette activité intrinsèque d’une part, améliore le comportement locomoteur d’animaux rendu hémiparkinsonien, et d’autre part réduit la tendance des neurones du NST à décharger en bouffées in vivo et in vitro, signature physiopathologique de la maladie de Parkinson. L’ensemble de ces données souligne le rôle clé des RD5 dans la physiopathologie de la maladie de Parkinson, ce qui ouvre la voie à de nouvelles approches thérapeutiques… Outre cette propriété d’agoniste inverse des RD5, l’a-flupentixol est connu pour ses propriétés antipsychotiques en tant qu’antagoniste des RD2. C’est pourquoi lorsqu’il est injecté de façon systémique il induit des troubles moteurs et une catalepsie caractérisés de syndrome extrapyramidaux, même chez les animaux contrôles. Les mécanismes électrophysiologiques qui sous-tendent cet état cataleptique n’ayant jamais été étudié auparavant, nous avons mis en évidence que l’administration, par voie intra-péritonéale, d’a- flupentixol induit des changements drastiques de l’activité électrique au sein du réseau des ganglions de la base. En effet, nous avons observé une augmentation de la fréquence de décharge des neurones du globus pallidus et une diminution de celle-ci au niveau du NST et de la substance noire pars reticulata, accompagnée d’une désorganisation de l’activité électrique au niveau de ces deux noyaux. Cette étude offre une vue d’ensemble sur les mécanismes électrophysiologiques à l’origine des effets secondaires extrapyramidaux induits par les antipsychotiques, et souligne le caractère fondamental de la désorganisation de l’activité électrique des ganglions de la base dans les troubles moteurs. / Burst-firing in the subthalamic nucleus (STN) is a hallmark of Parkinson’s disease. Previous in vitro studies have raised the hypothesis of the involvement of dopamine D5 receptor (D5R) in the genesis of this pathological activity. Here we have shown that D5R exert a constitutive activity in vivo, which can be blocked by local application of a-flupentixol. Blockade of this intrinsic activity improved locomotor behaviour in an animal model of Parkinson’s disease and alleviate burst-firing of STN neurons both in vitro and in vivo. Taken together, these results highlight the key role play by local D5R in the pathophysiology of Parkinson’s disease and open the way to new pharmacological treatment of the disease… In addition to this property D5R inverse agonist, a-flupentixol is known for its antipsychotic properties as a D2R antagonist. Therefore, when injected systemically, it induced motor disturbances and catalepsy characterized as extrapyramidal motor side-effects. The electrophysiological mechanisms underlying this cataleptic state had never been studied before. Here we have demonstrated that the intra-peritoneal administration of a-flupentixol induced dramatic changes in the electrical activity of the basal ganglia network. Indeed, we observed an increase in firing rate of globus pallidus neurons and a decrease in both STN and substantia nigra pars reticulata, accompanied by a disorganisation of the electrical activity of these two nuclei. This study provides an overview of the electrophysiological mechanisms underlying extrapyramidal motor side-effects induced by antipsychotics, and stresses the fundamental nature of the disorganisation of the electrical activity in the basal ganglia network as a source of movement disorders. Maladie de Parkinson Antipsychotiques Noyau sous-thalamique Syndromes extrapyramidaux Récepteur D5 Dopamine Parkinson's Disease Subthalamic nucleus Dopamine D5 receptor

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